US20130255103A1 - Apparel And Other Products Incorporating A Thermoplastic Polymer Material - Google Patents

Apparel And Other Products Incorporating A Thermoplastic Polymer Material Download PDF

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Publication number
US20130255103A1
US20130255103A1 US13/438,554 US201213438554A US2013255103A1 US 20130255103 A1 US20130255103 A1 US 20130255103A1 US 201213438554 A US201213438554 A US 201213438554A US 2013255103 A1 US2013255103 A1 US 2013255103A1
Authority
US
United States
Prior art keywords
thermoplastic polymer
textile
polymer material
filaments
strand
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
US13/438,554
Other languages
English (en)
Inventor
Bhupesh Dua
Carrie L. Davis
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nike Inc
Original Assignee
Nike Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Nike Inc filed Critical Nike Inc
Priority to US13/438,554 priority Critical patent/US20130255103A1/en
Assigned to NIKE, INC. reassignment NIKE, INC. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: DAVIS, CARRIE L., DUA, BHUPESH
Priority to CN201380029220.0A priority patent/CN104334043A/zh
Priority to EP18207862.6A priority patent/EP3466288B1/fr
Priority to EP13724648.4A priority patent/EP2833750B1/fr
Priority to PCT/US2013/034901 priority patent/WO2013151968A2/fr
Publication of US20130255103A1 publication Critical patent/US20130255103A1/en
Priority to US15/339,485 priority patent/US11779071B2/en
Assigned to NIKE, INC. reassignment NIKE, INC. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: DAVIS, CARRIE L., DUA, BHUPESH
Priority to US18/353,645 priority patent/US20240081451A1/en
Abandoned legal-status Critical Current

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    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41DOUTERWEAR; PROTECTIVE GARMENTS; ACCESSORIES
    • A41D27/00Details of garments or of their making
    • A41D27/24Hems; Seams
    • A41D27/245Hems; Seams made by welding or gluing
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B1/00Footwear characterised by the material
    • A43B1/02Footwear characterised by the material made of fibres or fabrics made therefrom
    • A43B1/04Footwear characterised by the material made of fibres or fabrics made therefrom braided, knotted, knitted or crocheted
    • AHUMAN NECESSITIES
    • A41WEARING APPAREL
    • A41BSHIRTS; UNDERWEAR; BABY LINEN; HANDKERCHIEFS
    • A41B1/00Shirts
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B23/00Uppers; Boot legs; Stiffeners; Other single parts of footwear
    • A43B23/02Uppers; Boot legs
    • A43B23/0205Uppers; Boot legs characterised by the material
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B23/00Uppers; Boot legs; Stiffeners; Other single parts of footwear
    • A43B23/02Uppers; Boot legs
    • A43B23/0205Uppers; Boot legs characterised by the material
    • A43B23/0215Plastics or artificial leather
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B23/00Uppers; Boot legs; Stiffeners; Other single parts of footwear
    • A43B23/02Uppers; Boot legs
    • A43B23/0245Uppers; Boot legs characterised by the constructive form
    • A43B23/025Uppers; Boot legs characterised by the constructive form assembled by stitching
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B23/00Uppers; Boot legs; Stiffeners; Other single parts of footwear
    • A43B23/02Uppers; Boot legs
    • A43B23/0245Uppers; Boot legs characterised by the constructive form
    • A43B23/0255Uppers; Boot legs characterised by the constructive form assembled by gluing or thermo bonding
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B23/00Uppers; Boot legs; Stiffeners; Other single parts of footwear
    • A43B23/02Uppers; Boot legs
    • A43B23/04Uppers made of one piece; Uppers with inserted gussets
    • A43B23/042Uppers made of one piece
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43BCHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
    • A43B9/00Footwear characterised by the assembling of the individual parts
    • A43B9/02Footwear stitched or nailed through
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43CFASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
    • A43C1/00Shoe lacing fastenings
    • A43C1/04Shoe lacing fastenings with rings or loops
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43CFASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
    • A43C3/00Hooks for laces; Guards for hooks
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43CFASTENINGS OR ATTACHMENTS OF FOOTWEAR; LACES IN GENERAL
    • A43C5/00Eyelets
    • AHUMAN NECESSITIES
    • A43FOOTWEAR
    • A43DMACHINES, TOOLS, EQUIPMENT OR METHODS FOR MANUFACTURING OR REPAIRING FOOTWEAR
    • A43D8/00Machines for cutting, ornamenting, marking or otherwise working up shoe part blanks
    • A43D8/16Ornamentation
    • A43D8/22Ornamentation by embossing or printing
    • A43D8/24Embossing using heat, e.g. high frequency electric current
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C65/00Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor
    • B29C65/02Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by heating, with or without pressure
    • B29C65/18Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by heating, with or without pressure using heated tools
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C65/00Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor
    • B29C65/02Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by heating, with or without pressure
    • B29C65/18Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by heating, with or without pressure using heated tools
    • B29C65/20Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by heating, with or without pressure using heated tools with direct contact, e.g. using "mirror"
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C65/00Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor
    • B29C65/56Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor using mechanical means or mechanical connections, e.g. form-fits
    • B29C65/62Stitching
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C65/00Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor
    • B29C65/72Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by combined operations or combined techniques, e.g. welding and stitching
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/05Particular design of joint configurations
    • B29C66/10Particular design of joint configurations particular design of the joint cross-sections
    • B29C66/11Joint cross-sections comprising a single joint-segment, i.e. one of the parts to be joined comprising a single joint-segment in the joint cross-section
    • B29C66/112Single lapped joints
    • B29C66/1122Single lap to lap joints, i.e. overlap joints
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/05Particular design of joint configurations
    • B29C66/10Particular design of joint configurations particular design of the joint cross-sections
    • B29C66/12Joint cross-sections combining only two joint-segments; Tongue and groove joints; Tenon and mortise joints; Stepped joint cross-sections
    • B29C66/128Stepped joint cross-sections
    • B29C66/1282Stepped joint cross-sections comprising at least one overlap joint-segment
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/05Particular design of joint configurations
    • B29C66/10Particular design of joint configurations particular design of the joint cross-sections
    • B29C66/12Joint cross-sections combining only two joint-segments; Tongue and groove joints; Tenon and mortise joints; Stepped joint cross-sections
    • B29C66/128Stepped joint cross-sections
    • B29C66/1284Stepped joint cross-sections comprising at least one butt joint-segment
    • B29C66/12841Stepped joint cross-sections comprising at least one butt joint-segment comprising at least two butt joint-segments
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/05Particular design of joint configurations
    • B29C66/10Particular design of joint configurations particular design of the joint cross-sections
    • B29C66/13Single flanged joints; Fin-type joints; Single hem joints; Edge joints; Interpenetrating fingered joints; Other specific particular designs of joint cross-sections not provided for in groups B29C66/11 - B29C66/12
    • B29C66/133Fin-type joints, the parts to be joined being flexible
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/05Particular design of joint configurations
    • B29C66/10Particular design of joint configurations particular design of the joint cross-sections
    • B29C66/13Single flanged joints; Fin-type joints; Single hem joints; Edge joints; Interpenetrating fingered joints; Other specific particular designs of joint cross-sections not provided for in groups B29C66/11 - B29C66/12
    • B29C66/135Single hemmed joints, i.e. one of the parts to be joined being hemmed in the joint area
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/05Particular design of joint configurations
    • B29C66/10Particular design of joint configurations particular design of the joint cross-sections
    • B29C66/14Particular design of joint configurations particular design of the joint cross-sections the joint having the same thickness as the thickness of the parts to be joined
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/05Particular design of joint configurations
    • B29C66/20Particular design of joint configurations particular design of the joint lines, e.g. of the weld lines
    • B29C66/22Particular design of joint configurations particular design of the joint lines, e.g. of the weld lines said joint lines being in the form of recurring patterns
    • B29C66/223Particular design of joint configurations particular design of the joint lines, e.g. of the weld lines said joint lines being in the form of recurring patterns being in the form of a triangle wave or of a sawtooth wave, e.g. zigzagged
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/05Particular design of joint configurations
    • B29C66/20Particular design of joint configurations particular design of the joint lines, e.g. of the weld lines
    • B29C66/24Particular design of joint configurations particular design of the joint lines, e.g. of the weld lines said joint lines being closed or non-straight
    • B29C66/244Particular design of joint configurations particular design of the joint lines, e.g. of the weld lines said joint lines being closed or non-straight said joint lines being non-straight, e.g. forming non-closed contours
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/40General aspects of joining substantially flat articles, e.g. plates, sheets or web-like materials; Making flat seams in tubular or hollow articles; Joining single elements to substantially flat surfaces
    • B29C66/41Joining substantially flat articles ; Making flat seams in tubular or hollow articles
    • B29C66/43Joining a relatively small portion of the surface of said articles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/40General aspects of joining substantially flat articles, e.g. plates, sheets or web-like materials; Making flat seams in tubular or hollow articles; Joining single elements to substantially flat surfaces
    • B29C66/41Joining substantially flat articles ; Making flat seams in tubular or hollow articles
    • B29C66/43Joining a relatively small portion of the surface of said articles
    • B29C66/431Joining the articles to themselves
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/40General aspects of joining substantially flat articles, e.g. plates, sheets or web-like materials; Making flat seams in tubular or hollow articles; Joining single elements to substantially flat surfaces
    • B29C66/41Joining substantially flat articles ; Making flat seams in tubular or hollow articles
    • B29C66/45Joining of substantially the whole surface of the articles
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/40General aspects of joining substantially flat articles, e.g. plates, sheets or web-like materials; Making flat seams in tubular or hollow articles; Joining single elements to substantially flat surfaces
    • B29C66/47Joining single elements to sheets, plates or other substantially flat surfaces
    • B29C66/472Joining single elements to sheets, plates or other substantially flat surfaces said single elements being substantially flat
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/70General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material
    • B29C66/72General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the structure of the material of the parts to be joined
    • B29C66/729Textile or other fibrous material made from plastics
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/70General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material
    • B29C66/73General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the intensive physical properties of the material of the parts to be joined, by the optical properties of the material of the parts to be joined, by the extensive physical properties of the parts to be joined, by the state of the material of the parts to be joined or by the material of the parts to be joined being a thermoplastic or a thermoset
    • B29C66/731General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the intensive physical properties of the material of the parts to be joined, by the optical properties of the material of the parts to be joined, by the extensive physical properties of the parts to be joined, by the state of the material of the parts to be joined or by the material of the parts to be joined being a thermoplastic or a thermoset characterised by the intensive physical properties of the material of the parts to be joined
    • B29C66/7311Thermal properties
    • B29C66/73115Melting point
    • B29C66/73116Melting point of different melting point, i.e. the melting point of one of the parts to be joined being different from the melting point of the other part
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
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    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/70General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material
    • B29C66/73General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the intensive physical properties of the material of the parts to be joined, by the optical properties of the material of the parts to be joined, by the extensive physical properties of the parts to be joined, by the state of the material of the parts to be joined or by the material of the parts to be joined being a thermoplastic or a thermoset
    • B29C66/731General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the intensive physical properties of the material of the parts to be joined, by the optical properties of the material of the parts to be joined, by the extensive physical properties of the parts to be joined, by the state of the material of the parts to be joined or by the material of the parts to be joined being a thermoplastic or a thermoset characterised by the intensive physical properties of the material of the parts to be joined
    • B29C66/7311Thermal properties
    • B29C66/73117Tg, i.e. glass transition temperature
    • B29C66/73118Tg, i.e. glass transition temperature of different glass transition temperature, i.e. the glass transition temperature of one of the parts to be joined being different from the glass transition temperature of the other part
    • BPERFORMING OPERATIONS; TRANSPORTING
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    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/70General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material
    • B29C66/73General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the intensive physical properties of the material of the parts to be joined, by the optical properties of the material of the parts to be joined, by the extensive physical properties of the parts to be joined, by the state of the material of the parts to be joined or by the material of the parts to be joined being a thermoplastic or a thermoset
    • B29C66/739General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the intensive physical properties of the material of the parts to be joined, by the optical properties of the material of the parts to be joined, by the extensive physical properties of the parts to be joined, by the state of the material of the parts to be joined or by the material of the parts to be joined being a thermoplastic or a thermoset characterised by the material of the parts to be joined being a thermoplastic or a thermoset
    • B29C66/7392General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the intensive physical properties of the material of the parts to be joined, by the optical properties of the material of the parts to be joined, by the extensive physical properties of the parts to be joined, by the state of the material of the parts to be joined or by the material of the parts to be joined being a thermoplastic or a thermoset characterised by the material of the parts to be joined being a thermoplastic or a thermoset characterised by the material of at least one of the parts being a thermoplastic
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29KINDEXING SCHEME ASSOCIATED WITH SUBCLASSES B29B, B29C OR B29D, RELATING TO MOULDING MATERIALS OR TO MATERIALS FOR MOULDS, REINFORCEMENTS, FILLERS OR PREFORMED PARTS, e.g. INSERTS
    • B29K2313/00Use of textile products or fabrics as reinforcement
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29LINDEXING SCHEME ASSOCIATED WITH SUBCLASS B29C, RELATING TO PARTICULAR ARTICLES
    • B29L2031/00Other particular articles
    • B29L2031/48Wearing apparel
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29LINDEXING SCHEME ASSOCIATED WITH SUBCLASS B29C, RELATING TO PARTICULAR ARTICLES
    • B29L2031/00Other particular articles
    • B29L2031/48Wearing apparel
    • B29L2031/4842Outerwear
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29LINDEXING SCHEME ASSOCIATED WITH SUBCLASS B29C, RELATING TO PARTICULAR ARTICLES
    • B29L2031/00Other particular articles
    • B29L2031/48Wearing apparel
    • B29L2031/50Footwear, e.g. shoes or parts thereof
    • DTEXTILES; PAPER
    • D10INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10BINDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10B2331/00Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products
    • D10B2331/10Fibres made from polymers obtained otherwise than by reactions only involving carbon-to-carbon unsaturated bonds, e.g. polycondensation products polyurethanes
    • DTEXTILES; PAPER
    • D10INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10BINDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10B2401/00Physical properties
    • D10B2401/04Heat-responsive characteristics
    • D10B2401/041Heat-responsive characteristics thermoplastic; thermosetting
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T428/00Stock material or miscellaneous articles
    • Y10T428/19Sheets or webs edge spliced or joined

Definitions

  • a variety of articles are at least partially formed from textiles.
  • apparel e.g., shirts, pants, socks, footwear, jackets and other outerwear, briefs and other undergarments, hats and other headwear
  • containers e.g., backpacks, bags
  • upholstery for furniture e.g., chairs, couches, car seats
  • Textiles may also be utilized in bed coverings (e.g., sheets, blankets), table coverings, towels, flags, tents, sails, and parachutes.
  • Textiles utilized for industrial purposes are commonly referred to as technical textiles and may include structures for automotive and aerospace applications, filter materials, medical textiles (e.g.
  • textiles may be incorporated into a variety of articles for both personal and industrial purposes.
  • Textiles may be defined as any manufacture from fibers, filaments, or yarns having a generally two-dimensional structure (i.e., a length and a width that are substantially greater than a thickness).
  • textiles may be classified as non-woven textiles or mechanically-manipulated textiles.
  • Non-woven textiles are webs or mats of filaments that are bonded, fused, interlocked, or otherwise joined.
  • a non-woven textile may be formed by randomly depositing a plurality of polymer filaments upon a surface, such as a moving conveyor.
  • Mechanically-manipulated textiles are often formed by weaving or interlooping (e.g., knitting) a yarn or a plurality of yarns, usually through a mechanical process involving looms or knitting machines.
  • woven textiles include yarns that cross each other at right angles (i.e., warp and weft yarns)
  • knitted textiles include one or more yarns that form a plurality of intermeshed loops arranged in courses and wales.
  • shoulder and elbow areas of a shirt may be formed from a textile that imparts durability (e.g., abrasion-resistance) and stretch-resistance, whereas other areas may be formed from a textile that imparts breathability, comfort, stretch, and moisture-absorption.
  • an upper for an article of footwear may have a structure that includes numerous layers formed from various types of textiles and other materials (e.g., polymer foam, leather, synthetic leather), and some of the layers may also have areas formed from different types of textiles to impart different properties.
  • straps of a backpack may be formed from non-stretch textile elements
  • lower areas of a backpack may be formed from durable and water-resistant textile elements
  • a remainder of the backpack may be formed from lightweight and compliant textile elements. Accordingly, many products may incorporate various types of textiles in order to impart different properties to different portions of the products.
  • textile elements formed from the materials must be cut to desired shapes and then joined together, usually with stitching or adhesive bonding.
  • the time and expense associated with transporting, stocking, cutting, and joining the textile elements may also increase.
  • Waste material from cutting and stitching processes also accumulates to a greater degree as the number and types of textile elements incorporated into a product increases.
  • products with a greater number of textile elements and other materials may be more difficult to recycle than products formed from few elements and materials.
  • a yarn may include a plurality of substantially aligned filaments, with at least ninety-five percent of a material of the filaments being a thermoplastic polymer material.
  • a thread may include a first yarn and a second yarn.
  • the first yarn includes a plurality of substantially aligned filaments, with at least ninety-five percent of a material of the filaments being a thermoplastic polymer material.
  • the second yarn is twisted with the first yarn.
  • a woven textile may include a warp strand and a weft strand.
  • the warp strand extends in a first direction and includes a plurality of substantially aligned filaments, with at least ninety-five percent of a material of the filaments being a thermoplastic polymer material.
  • the weft strand extends in a second direction that is substantially perpendicular to the first direction.
  • a knitted textile may include at least one strand that forms a plurality of interlocked loops arranged in courses and wales.
  • the strand includes a plurality of substantially aligned filaments, with at least ninety-five percent of a material of the filaments being a thermoplastic polymer material.
  • An article may include a first material element, a second material element, and a seam.
  • the first material element is at least partially formed from a first thermoplastic polymer material
  • the first material element is one of a woven textile and a knitted textile.
  • a strand extends through each of the first material element and the second material element, the strand being at least partially formed from a second thermoplastic polymer material.
  • the first material element is thermal bonded to the second material element with the first thermoplastic polymer material at the seam. Additionally, the strand is thermal bonded to the first material element and the second material element with the second thermoplastic polymer material at the seam.
  • a method of joining includes stitching a pair of textile elements together with a strand to form a seam.
  • the textile elements and the strand are heated and compressed at the seam to (a) form a thermal bond between the textile elements and (b) melt the strand.
  • An article of apparel includes a plurality of textile elements joined to each other at seams to form a structure for receiving a part of a wearer.
  • the textile elements include strands that have a plurality of substantially aligned filaments formed from a thermoplastic polymer material.
  • FIG. 1 is a plan view of a portion of a yarn.
  • FIG. 2 is a cross-sectional view of the yarn, as defined in FIG. 1 .
  • FIG. 3 is a plan view of a portion of a thread.
  • FIG. 4 is a cross-sectional view of the thread, as defined in FIG. 3 .
  • FIGS. 5 and 6 are plan views depicting further configurations of the thread.
  • FIG. 7 is a plan view of a woven textile.
  • FIG. 8 is a cross-sectional view of the woven textile, as defined in FIG. 7 .
  • FIG. 9 is a plan view of a knitted textile.
  • FIG. 10 is a cross-sectional view of the knitted textile, as defined in FIG. 9 .
  • FIG. 11 is a plan view depicting a further configuration of the knitted textile.
  • FIGS. 12 and 13 are cross-sectional views corresponding with FIG. 2 and depicting examples of fused configurations of the yarn.
  • FIGS. 14 and 15 are cross-sectional views corresponding with FIG. 4 and depicting examples of fused configurations of the thread.
  • FIG. 16 is a plan view of the woven textile with a fused region.
  • FIG. 17 is a cross-sectional view of the woven textile, as defined in FIG. 16 .
  • FIG. 18 is another plan view of the woven textile with a fused region.
  • FIG. 19 is a cross-sectional view of the woven textile, as defined in FIG. 18 .
  • FIG. 20 is a plan view of the knitted textile with a fused region.
  • FIG. 21 is a cross-sectional view of the knitted textile, as defined in FIG. 20 .
  • FIG. 22 is another plan view of the knitted textile with a fused region.
  • FIG. 23 is a cross-sectional view of the knitted textile, as defined in FIG. 22 .
  • FIG. 24 is a plan view of the woven textile with multiple fused regions.
  • FIG. 25 is a perspective view of a composite element.
  • FIG. 26 is a cross-sectional view of the composite element, as defined in FIG. 25 .
  • FIGS. 27A-27C are schematic perspective views of a manufacturing process for the composite element.
  • FIG. 28 is a perspective view of the composite element with a fused region.
  • FIG. 29 is a perspective view of a first configuration of a seam element.
  • FIG. 30 is a cross-sectional view of the first configuration of the seam element, as defined in FIG. 29 .
  • FIGS. 31A-31D are schematic side elevational views of a manufacturing process for the first configuration of the seam element.
  • FIG. 32 is a perspective view of the first configuration of the seam element with multiple fused regions.
  • FIG. 33 is a perspective view of a second configuration of the seam element.
  • FIG. 34 is a cross-sectional view of the second configuration of the seam element, as defined in FIG. 33
  • FIGS. 35A-35C are schematic side elevational views of a manufacturing process for the second configuration of the seam element.
  • FIG. 36 is a perspective view of the first configuration of the seam element with a stitching strand.
  • FIGS. 37A-37C are alternate perspective views of the first configuration of the seam element with a stitching strand.
  • FIGS. 38A-38D are schematic side elevational views of a manufacturing process for the first configuration of the seam element with a stitching strand.
  • FIG. 38E is a perspective view of a portion of the manufacturing process for the first configuration of the seam element with a stitching strand.
  • FIGS. 39A and 39B are graphs depicting temperature in the manufacturing process for the first configuration of the seam element with a stitching strand.
  • FIG. 40 is a perspective view of the second configuration of the seam element with a stitching strand.
  • FIG. 41 is an elevational view of a first configuration of a shirt.
  • FIGS. 42A-42C are cross-sectional views of the first configuration of the shirt, as defined in FIG. 41 .
  • FIG. 43 is an elevational view of a second configuration of the shirt.
  • FIGS. 44A and 44B are cross-sectional views of the second configuration of the shirt, as defined in FIG. 43 .
  • FIG. 45 is an elevational view of a third configuration of the shirt.
  • FIGS. 46A-46C are cross-sectional views of the third configuration of the shirt, as defined in FIG. 45 .
  • FIG. 47 is an elevational view of a fourth configuration of the shirt.
  • FIG. 48 is a cross-sectional view of the fourth configuration of the shirt, as defined in FIG. 47 .
  • FIG. 49 is an elevational view of a first configuration of footwear.
  • FIG. 50 is a cross-sectional view of the first configuration of the footwear, as defined in FIG. 49 .
  • FIG. 51 is an elevational view of a second configuration of the footwear.
  • FIG. 52 is a cross-sectional views of the second configuration of the footwear, as defined in FIG. 51 .
  • FIG. 53 is an elevational view of a third configuration of the footwear.
  • FIG. 54 is an elevational view of a fourth configuration of the footwear.
  • FIGS. 55A-55C are perspective views of shaped textiles.
  • FIGS. 56A-56C are schematic perspective views of a manufacturing process for the shaped textiles.
  • FIG. 57 is a schematic view of a recycling process.
  • the yarns, threads, and textiles are disclosed below as being incorporated into various articles of apparel (e.g., shirts and footwear) for purposes of example, the yarns, threads, and textiles may also be incorporated into a variety of other articles.
  • the yarns, threads, and textiles may be utilized in other types of apparel, containers, and upholstery for furniture.
  • the yarns, threads, and textiles may also be utilized in bed coverings, table coverings, towels, flags, tents, sails, and parachutes.
  • the yarns, threads, and textiles may also be utilized for industrial purposes, as in automotive and aerospace applications, filter materials, medical textiles, geotextiles, agrotextiles, and industrial apparel. Accordingly, the yarns, threads, and textiles may be utilized in a variety of articles for both personal and industrial purposes.
  • a section of a yarn 100 is depicted in FIG. 1 as having a configuration that may be utilized for a variety of purposes, including sewing, stitching, and embroidering.
  • Yarn 100 may also be utilized for making a thread, cable, cord, or rope.
  • Various textiles may also be produced from yarn 100 through weaving and knitting, for example. Although a relatively short length of yarn 100 is shown, yarn 100 may have a significantly greater length. More particularly, the length of yarn 100 may significantly exceed one-thousand or even ten-thousand meters.
  • yarn 100 may be a spun yarn or an air textured yarn.
  • Yarn 100 includes a plurality of filaments 101 that are bundled or otherwise gathered to form a generally thin and elongate structure.
  • the number of filaments 101 that are incorporated into yarn 100 may vary significantly and may range between two and three-hundred or more.
  • Fibers are often defined, in textile terminology, as having a relatively short length that ranges from one millimeter to a few centimeters or more, whereas filaments are often defined as having a longer length than fibers or even an indeterminate length.
  • the term “filament” or variants thereof is intended to encompass lengths of both fibers and filaments from the textile terminology definitions. Accordingly, filaments 101 or other filaments referred to herein may generally have any length. As an example, therefore, filaments 101 may have a length that ranges from one millimeter to hundreds of meters or more. Individual filaments 101 may also have lengths that extend through an entire length of yarn 100 .
  • Filaments 101 are substantially aligned in yarn 100 .
  • the term “substantially aligned” is intended to convey that filaments 100 generally extend in a common direction, which corresponds with a longitudinal axis of yarn 100 .
  • some of filaments 101 or portions of filaments 101 may be parallel with each other, but other filaments 101 or other portions of filaments 101 may cross each other or may extend in directions that are offset by a few degrees (e.g., offset in a range of zero to seven degrees) when yarn 100 is tensioned, stretched, or otherwise arranged to have a linear or straight structure.
  • filaments 101 are substantially aligned, yarn 100 is depicted as exhibiting twist, thereby imparting a rotational aspect to various filaments 101 . More particularly, filaments 101 may be twisted around each other such that some filaments 101 or sections of filaments 101 have a helical structure that repeatedly wraps around the longitudinal axis of yarn 100 . Although sections of filaments 101 may be generally straight, other sections may have a spiral or helical configuration that imparts the twist. In some configurations, portions of filaments 100 located in a central area of yarn 100 may be generally straight, whereas portions of filaments 100 located closer to a periphery or exterior of yarn 100 may have the spiral or helical configuration. Either an S-twist or a Z-twist may be utilized in yarn 100 .
  • twist in yarn 100 imparts the advantage of reducing fraying that may occur if some of filaments 101 are severed, sheared, or otherwise broken. Although yarn 100 may exhibit twist, yarn 100 may also have a straight or untwisted configuration.
  • Filaments 101 are primarily formed from a thermoplastic polymer material.
  • a thermoplastic polymer material softens or melts when heated and returns to a solid state when cooled. More particularly, a thermoplastic polymer material transitions from a solid state to (a) a softened state when heated to a glass transition temperature of the thermoplastic polymer material and (b) a generally liquid state when heated to a melting temperature of the thermoplastic polymer material. Then, when sufficiently cooled, the thermoplastic polymer material transitions from the softened or liquid state to the solid state. As such, the thermoplastic polymer material may be softened or melted, molded, cooled, re-softened or re-melted, re-molded, and cooled again through multiple cycles.
  • thermoplastic polymer materials When heated to at least the glass transition temperature, thermoplastic polymer materials may also be welded, fused, or thermal bonded, as described in greater detail below, to join an element formed from the thermoplastic polymer material to another object, item, or element. In contrast with thermoplastic polymer materials, many thermoset polymer materials do not melt when heated, simply degrading or burning instead.
  • thermoplastic polymer materials include thermoplastic polyurethane, polyamide, polyester, polypropylene, and polyolefin.
  • filaments 101 may be formed from any of the thermoplastic polymer materials mentioned above, utilizing thermoplastic polyurethane imparts various advantages. For example, various formulations of thermoplastic polyurethane are elastomeric and stretch over one-hundred percent, while exhibiting relatively high stability or tensile strength. In comparison with some other thermoplastic polymer materials, thermoplastic polyurethane readily forms thermal bonds with other elements, as discussed in greater detail below. Also, thermoplastic polyurethane may form foam materials and may be recycled to form a variety of products.
  • each of filaments 101 are entirely or substantially formed from one or more thermoplastic polymer materials. That is, at least ninety-five percent, ninety-nine percent, or one-hundred percent of a material of filaments 101 is a thermoplastic polymer material. Advantages of substantially forming filaments 101 from a thermoplastic polymer material are uniform properties, the ability to form thermal bonds, efficient manufacture, elastomeric stretch, and relatively high stability or tensile strength Although a single thermoplastic polymer material may be utilized, individual filaments 101 may be formed from multiple thermoplastic polymer materials.
  • an individual filament 101 may have a sheath-core configuration, wherein an exterior sheath of the individual filament 101 is formed from a first thermoplastic polymer material, and an interior core of the individual filament 101 is formed from a second thermoplastic polymer material.
  • an individual filament 101 may have a bi-component configuration, wherein one half of the individual filament 101 is formed from a first thermoplastic polymer material, and an opposite half of the individual filament 101 is formed from a second thermoplastic polymer material.
  • each of filaments 101 may be formed from a common thermoplastic polymer material, different filaments 101 may also be formed from different materials.
  • some of filaments 101 may be formed from a first type of thermoplastic polymer material, whereas other filaments 101 may be formed from a second type of thermoplastic polymer material.
  • the thermoplastic polymer material of filaments 101 may be selected to have various stretch properties, and the material may be considered elastomeric. Depending upon the specific properties desired for yarn 100 , filaments 101 may stretch between ten percent to more than eight-hundred percent prior to tensile failure. As a related matter, the thermoplastic polymer material utilized for filaments 101 may be selected to have various recovery properties. That is, yarn 100 or filaments 101 may be formed to return to an original shape after being stretched. Many products that incorporate yarn 100 , such as textiles and articles of apparel formed from the textiles, may benefit from properties that allow yarn 100 to return or otherwise recover to an original shape after being stretched by one-hundred percent or more. Although many thermoplastic polymer materials exhibit stretch and recovery properties, thermoplastic polyurethane exhibits suitable stretch and recovery properties for various textiles and articles of apparel.
  • the weight of yarn 100 may vary significantly depending upon the thicknesses of individual filaments 101 , the number of filaments 101 , and the specific material selected for filaments 101 , for example. In general, weight is measured by the unit tex, which is the weight in grams of a kilometer of yarn. Yarn 100 may range from fifty to one-thousand denier or more.
  • a manufacturing process for yarn 100 includes (a) extruding or otherwise forming a plurality of filaments 101 from a thermoplastic polymer material and (b) collecting or bundling filaments 101 . Once bundled, filaments 101 may be twisted. Depending upon the specific characteristics desired, yarn 100 may also be subjected to an air texturing operation or other post-processing operations. Fusing processes, as discussed below, may also be performed to form thermal bonds between adjacent filaments 101 .
  • a thread 200 is depicted in FIGS. 3 and 4 as including two yarns 201 that are twisted with each other.
  • each of yarns 201 may exhibit the general configuration of yarn 100 discussed above.
  • One or both of yarns 201 includes, therefore, a plurality of substantially aligned filaments 202 that are substantially formed from a thermoplastic polymer material.
  • a thermoplastic polymer material such as thermoplastic polyurethane.
  • this configuration of thread 200 may be considered a two-ply thread.
  • any number of yarns 201 or other yarns may be incorporated into thread 200 .
  • FIG. 5 depicts thread 200 as incorporating three yarns 201 that are twisted with each other.
  • FIG. 6 depicts thread 200 as incorporating three yarns 201 that are twisted together through braiding. Accordingly, the number of yarns 201 and the manner in which yarns 201 are twisted with each other may vary significantly.
  • the weight of thread 200 may vary significantly depending upon the thicknesses of individual filaments 202 , the number of filaments 202 in each yarn 201 , the material selected for filaments 202 , and the number of yarns 100 , for example. In general, weight is measured by the unit denier, which is the weight in grams of nine-thousand meters of thread. As examples, each of yarns 201 within thread 200 may range from 50 denier to 400 denier or more.
  • strands may be formed from one or more strands, including either of yarn 100 and thread 200 .
  • strand is defined as a generally elongate element having a length that is substantially greater than a width and thickness.
  • strands include filaments, yarns, threads, cables, cords, and ropes.
  • either of yarn 100 and thread 200 may be a strand that is incorporated into a textile.
  • a woven textile 300 is depicted in FIG. 7 as including a plurality of warp strands 301 and weft strands 302 .
  • warp strands 301 extend in a first direction
  • weft strands 302 extend in a second direction that is substantially perpendicular to the first direction.
  • strands 301 and 302 cross each other and weave over and below each other, as depicted in FIG. 8 .
  • strands 301 and 302 are manipulated through a weaving process, which may involve a weaving machine or loom, to cross and weave among each other at the substantially right angles.
  • various configurations of woven textile may have a twill weave, satin weave, jacquard weave, or dobby weave, for example.
  • woven textile 300 is depicted as being formed from strands 301 and 302
  • one or more additional strands may be incorporated into the structure of woven textile 300 .
  • different warp strands, weft strands, or portions of these strands may be formed from various types of strands having diverse materials, colors, or properties.
  • Any of strands 301 and 302 may have the configuration of a filament, yarn, thread, cable, cord, or rope. Either or both of strands 301 and 302 may also exhibit the general configuration of yarn 100 or thread 200 discussed above.
  • Strands 301 and 302 may include, therefore, a plurality of substantially aligned filaments that are substantially formed from a thermoplastic polymer material.
  • a material of the filaments or other material forming strands 301 and 302 may be a thermoplastic polymer material, such as thermoplastic polyurethane.
  • thermoplastic polymer material such as thermoplastic polyurethane.
  • strands 301 and 302 are formed as a filament, cable, cord, or rope, such strands may also be substantially formed from a thermoplastic polymer material.
  • a knitted textile 400 is depicted in FIGS. 9 and 10 as including at least one strand 401 that forms a plurality of intermeshed loops. More particularly, sections of strand 401 forms various loops that extend through and are intermeshed with other loops to define a variety of courses and wales. As depicted, the courses are horizontal rows of loops formed from strand 401 , and the wales are vertical columns of loops formed from strand 401 .
  • strand 401 is manipulated through a knitting process, which may involve a knitting machine, to form and intermesh the loops, thereby defining the various of courses and wales.
  • warp knit and weft knit structures may be formed through flat knitting, wide tube circular knitting, narrow tube circular knit jacquard, single knit circular knit jacquard, double knit circular knit jacquard, double needle bar raschel, warp knit jacquard, and tricot for example.
  • knitted textile 400 is depicted as being formed from strand 401 , multiple strands may be incorporated into the structure of knitted textile 400 .
  • different loops, different courses, different portions of a single course, different wales, and different portions of a single wale may be formed from strands having diverse materials, colors, and properties.
  • Strand 401 may have the configuration of a filament, yarn, thread, cable, cord, or rope. Strand 401 or other strands incorporated into knitted textile 400 may also exhibit the general configuration of yarn 100 or thread 200 discussed above.
  • Strand 401 may include, therefore, a plurality of substantially aligned filaments that are substantially formed from a thermoplastic polymer material. As such, at least ninety-five percent, ninety-nine percent, or one-hundred percent of a material of the filaments or other material forming strand 401 may be a thermoplastic polymer material, such as thermoplastic polyurethane. When strand 401 is formed as a filament, cable, cord, or rope, such strands may also be substantially formed from a thermoplastic polymer material.
  • knitted textile 400 may also incorporate an inlaid strand 402 , as depicted in FIG. 11 .
  • Inlaid strand 402 extends through the knit structure, thereby passing between the various loops within knitted textile 400 .
  • inlaid strand 402 is depicted as extending along a course, inlaid strand 402 may also extend along a wale.
  • inlaid strand 402 may be similar to yarn 100 or thread 200 , or inlaid strand 402 may have another configuration having a plurality of substantially aligned filaments that are substantially formed from a thermoplastic polymer material.
  • Advantages of inlaid strand 402 include providing support, stability, and structure.
  • inlaid strand 402 may assist with limiting stretch or deformation in areas of knitted textile 400 and in specific directions. Additional details relating to inlaid strands and methods of incorporating inlaid strands into the structure of a knitted textile may be found with reference to U.S. patent application Ser. No. 13/048,540, which was filed in the U.S. Patent and Trademark Office on 15 Mar. 2011 and entitled Method Of Manufacturing A Knitted Component, such application being entirely incorporated herein by reference.
  • Woven textile 300 and knitted textile 400 provide examples of textile structures that may incorporate yarn 100 , thread 200 , or other strands formed from thermoplastic polymer materials.
  • a variety of other types of textiles may also incorporate similar strands.
  • textiles formed through crocheting or intertwining and twisting may have strands with a plurality of substantially aligned filaments that are substantially formed from a thermoplastic polymer material.
  • mesh textiles, spacer mesh textiles, jersey textiles, fleece textiles, and terry loop textiles may have strands with a plurality of substantially aligned filaments that are substantially formed from a thermoplastic polymer material.
  • Thermal bonding is an advantage of thermoplastic polymer materials not generally present in yarns, threads, and textiles, for example, formed from natural materials (e.g., cotton, silk) and thermoset polymer materials.
  • a thermoplastic polymer material softens or melts when heated and returns to a solid state when cooled.
  • an element formed from a thermoplastic polymer material may also be welded, fused, or thermal bonded to another object, item, or element. That is, the thermoplastic polymer material may be used to join two elements together through thermal bonding.
  • thermal bonding or variants thereof is defined as a securing technique between two elements that involves a softening or melting of a thermoplastic polymer material within at least one of the elements such that the elements are secured to each other when cooled.
  • thermal bond or variants thereof is defined as the bond, link, or structure that joins two elements through a process that involves a softening or melting of a thermoplastic polymer material within at least one of the elements such that the elements are secured to each other when cooled.
  • thermal bonding examples include (a) the melting or softening of two elements incorporating thermoplastic polymer materials such that the thermoplastic polymer materials intermingle with each other (e.g., diffuse across a boundary layer between the thermoplastic polymer materials) and are secured together when cooled; (b) the melting or softening of an element incorporating a thermoplastic polymer material such that the thermoplastic polymer material extends into or infiltrates the structure of a strand (e.g., extends around or bonds with filaments in the strand) to secure the elements together when cooled; (c) the melting or softening of an element incorporating a thermoplastic polymer material such that the thermoplastic polymer material extends into or infiltrates the structure of a textile element (e.g., extends around or bonds with filaments or fibers in the textile element) to secure the elements together when cooled; and (d) the melting or softening of an element incorporating a thermoplastic polymer material such that the thermoplastic polymer material extends into or infiltrates
  • Thermal bonding may occur when only one element includes a thermoplastic polymer material or when both elements include thermoplastic polymer materials. In general, therefore, thermal bonding involves directly bonding elements to each other with heat. In some situations, however, stitching or adhesives may be utilized to supplement the thermal bond or the joining of elements through thermal bonding.
  • thermoplastic polymer material transitions from a solid state to (a) a softened state when heated to a glass transition temperature of the thermoplastic polymer material and (b) a generally liquid state when heated to a melting temperature of the thermoplastic polymer material.
  • Thermal bonding may occur when the thermoplastic polymer material is heated to the glass transition temperature. Greater degrees of thermal bonding, as discussed below, may occur at elevated temperatures approaching or exceeding the melting temperature.
  • FIG. 12 depicts a configuration of yarn 100 with thermal bonds that fuse various filaments 101 .
  • the thermoplastic polymer material of the various filaments 101 in yarn 100 transitions from a solid state to either a softened state or a liquid state.
  • filaments 101 may fuse with each other through thermal bonding to effectively combine two or more filaments 101 .
  • some of filaments 101 remain separate from or unfused to other filaments 101 , other filaments 101 are thermal bonded to each other in groups of two, three, four, or more.
  • FIG. 13 depicts another configuration wherein approximately half of filaments 101 remain separate from or unfused to other filaments 101 , whereas the other half of filaments 101 are all thermal bonded to each other to form a single mass of thermoplastic polymer material within yarn 100 .
  • filaments 101 may exhibit a range of thermal bonding extending from (a) a state where the various filaments 101 remain separate and identifiable within yarn 100 to (b) a state where the various filaments 101 combine to form a larger mass of thermoplastic polymer material within yarn 100 . That is, (a) filaments 101 remain entirely separate from each other, (b) relatively small numbers of filaments 101 may be thermal bonded to each other, but remain in a generally filamentous configuration, or (c) numerous filaments 101 may be thermal bonded to each other to form a generally non-filamentous configuration.
  • all of filaments 101 in yarn 100 may be thermal bonded to each other to effectively combine the thermoplastic polymer material from each of filaments 101 into a single strand (e.g., similar to a monofilament). Accordingly, the degree of thermal bonding in yarn 100 may vary considerably.
  • FIG. 14 Another example of thermal bonding is depicted in FIG. 14 , wherein thread 200 exhibits thermal bonding. More particularly, the various filaments 202 within yarns 201 of thread 200 are fused to a degree that is comparable with FIG. 12 . Notably, some of filaments 202 from one yarn 201 are fused or thermal bonded with some of filaments 202 from the other yarn 201 . That is, yarns 201 within thread 200 are thermal bonded to each other, thereby effectively joining the two yarns 201 .
  • thread 200 may exhibit a range of thermal bonding extending from (a) a state where the various filaments 202 remain separate and identifiable to (b) a state where the various filaments 202 combine to form a larger mass of thermoplastic polymer material.
  • each of filaments 202 of yarns 201 in thread 200 may be thermal bonded to each other to effectively combine the thermoplastic polymer material from each yarn 201 into joined strands (i.e., joined monofilaments). Accordingly, the degree of thermal bonding in thread 200 may vary considerably.
  • FIGS. 16 and 17 A further example of thermal bonding is depicted in FIGS. 16 and 17 , wherein woven textile 300 includes a fused region 303 .
  • woven textile 300 includes a fused region 303 .
  • strands 301 and 302 are unbonded or unfused to each other, strands 301 and 302 are fused or otherwise thermal bonded to each other in fused region 303 . That is, a thermoplastic polymer material within one or both of strands 301 and 302 effectively forms a thermal bond to join strands 301 and 302 to each other in fused region 303 .
  • strands 301 and 302 may have the general configuration of a filament, yarn, thread, cable, cord, or rope, as well as the configuration of yarn 100 or thread 200 , the manner in which strands 301 and 302 are fused to each other may vary considerably.
  • strands 301 and 302 exhibit the configuration of yarn 100
  • areas where strands 301 and 302 cross or contact each other may be thermal bonded in a manner that is similar to FIGS. 14 and 15 .
  • the filaments within strands 301 and 302 may exhibit a range of thermal bonding extending from (a) a state where the various filaments remain separate and identifiable to (b) a state where the various filaments combine to form a larger mass of thermoplastic polymer material. Similar concepts apply when strands 301 and 302 exhibit the configuration of thread 200 or another type of strand.
  • Woven textile 300 may also exhibit thermal bonding in fused region 303 when each of strands 301 and 302 have different configurations or are formed from different materials.
  • warp strand 301 is a filament formed from a thermoplastic polymer material
  • weft strand 302 is a thread formed from a thermoset polymer material
  • the thermoplastic polymer material in warp strand 301 may infiltrate the structure of the thread forming weft strand 302 by extending around filaments in the thread to secure strands 301 and 302 together when cooled.
  • warp strand 301 is a cord formed from a thermoplastic polymer material and weft strand 302 is a filament formed from a thermoset polymer material
  • the thermoplastic polymer material in warp strand 301 may infiltrates crevices or cavities in the filament forming weft strand 302 to secure strands 301 and 302 together when cooled.
  • the degree to which strands 301 and 302 melt or transition from a filamentous to a non-filamentous state when forming the thermal bonds may also vary. Referring again to FIGS. 16 and 17 , strands 301 and 302 remain identifiable within the structure of fused region 303 . Individual filaments may also remain identifiable similar to FIGS. 12 and 14 . In FIGS. 18 and 19 , however, the thermoplastic polymer material from strands 301 and 302 has melted into a non-filamentous state that effectively forms a solid polymer sheet in a fused region 304 , with neither strands 301 and 302 nor individual filaments in strands 301 and 302 being identifiable.
  • thermal bonding in woven textile 300 may range from (a) a state where the various elements remain separate and identifiable, as in fused region 303 , to (b) a state where the various elements combine to form a larger mass of thermoplastic polymer material, as in fused region 304 .
  • factors that determine the degree of fusing include (a) the particular thermoplastic polymer material forming strands 301 and 302 , (b) the temperature (e.g., glass transition and melting temperatures) that fused regions 303 and 304 are exposed to, (c) the pressure that fused regions 303 and 304 are exposed to, and (d) the time at which fused regions 303 and 304 are exposed to the elevated temperature and/or pressure.
  • the degree of fusing or thermal bonding that results within fused regions 303 and 304 may also be varied. Similar factors also apply to the thermal bonding within yarn 100 and thread 200 .
  • FIGS. 20 and 21 Another example of thermal bonding is depicted in FIGS. 20 and 21 , wherein knitted textile 400 includes a fused region 403 .
  • strand 401 is fused or otherwise thermal bonded to itself in fused region 403 . That is, a thermoplastic polymer material within one portion of strand 401 effectively forms a thermal bond with another portion of strand 401 in fused region 403 .
  • strand 401 may have the general configuration of a filament, yarn, thread, cable, cord, or rope, as well as the configuration of yarn 100 or thread 200 , the manner in which portions of strand 401 are fused to each other may vary considerably.
  • strand 401 When, for example, strand 401 exhibits the configuration of yarn 100 , the portions of strand 401 that cross or contact each other may be thermal bonded in a manner that is similar to FIGS. 14 and 15 . Moreover, the filaments within strand 401 may exhibit a range of thermal bonding extending from (a) a state where the various filaments remain separate and identifiable to (b) a state where the various filaments combine to form a larger mass of thermoplastic polymer material. Similar concepts apply when strand 401 exhibits the configuration of thread 200 or another type of strand.
  • Knitted textile 400 may also exhibit thermal bonding in fused region 403 when strand 401 and one or more additional strands (e.g., inlaid strand 402 ) are incorporated into knitted textile 400 .
  • thermal bonding may be similar to the various examples provided above for different types of strands 301 and 302 in fused region 303 of woven textile 300 .
  • thermal bonding may join strands within fused region 403 that have different configurations or are formed from different materials.
  • the degree to which strand 401 melts or transitions from a filamentous to a non-filamentous state when forming the thermal bonds may also vary. Referring again to FIGS. 20 and 21 , sections of strand 401 remain identifiable within the structure of fused region 403 . Individual filaments may also remain identifiable similar to FIG. 14 . In FIGS. 22 and 23 , however, the thermoplastic polymer material from strand 401 has melted into a non-filamentous state that effectively forms a solid polymer sheet in a fused region 404 , with neither strand 401 nor individual filaments in strand 401 being identifiable.
  • thermal bonding in knitted textile 400 may range from (a) a state where the various elements remain separate and identifiable, as in fused region 403 , to (b) a state where the various elements combine to form a larger mass of thermoplastic polymer material, as in fused region 404 .
  • factors that determine the degree of fusing in knitted textile 400 include (a) the particular thermoplastic polymer material forming strand 401 , (b) the temperature (e.g., glass transition and melting temperatures) that fused regions 403 and 404 are exposed to, (c) the pressure that fused regions 403 and 404 are exposed to, and (d) the time at which fused regions 403 and 404 are exposed to the elevated temperature and/or pressure.
  • the degree of fusing or thermal bonding that results within fused regions 403 and 404 may also be varied.
  • yarn 100 , thread 200 , other strands, textiles 300 and 400 , and other textiles may exhibit fusing or may form thermal bonds due to the presence of a thermoplastic polymer material.
  • filaments 101 within yarn 100 may form thermal bonds with each other to various degrees
  • filaments 202 or yarns 201 within thread 200 may form thermal bonds with each other to various degrees.
  • woven textile 300 may have a fused region 303 or 304 and a remaining unfused region, with warp strand 301 and weft strand 302 being thermal bonded to each other in fused regions 303 and 304 and being unbonded to each other in the unfused region.
  • knitted textile 400 may include a fused region 403 or 404 and a remaining unfused region, with a section of strand 401 being thermal bonded to a different section of strand 401 in fused regions 403 and 404 .
  • fused regions 303 , 304 , 403 , and 404 are shown as being a relatively small part of textiles 300 and 400 , a larger part or substantially all of textiles 300 and 400 may exhibit thermal bonding.
  • the properties of fused regions 303 and 304 may be different than the properties of unfused regions in woven textile 300 .
  • the properties of one of the fused regions may be different than the properties of another of the fused regions.
  • FIG. 24 depicts a configuration of woven textile 300 having both fused regions 303 and 304 .
  • the properties of fused region 303 may be different than the properties of fused region 304 to impart different properties to different areas of woven textile 300 .
  • woven textile 300 In manufacturing woven textile 300 and forming fused regions 303 and 304 , specific properties may be applied to woven textile 300 in the areas of fused regions 303 and 304 . More particularly, the shapes of fused regions 303 and 304 , positions of fused regions 303 and 304 , sizes of fused regions 303 and 304 , degree to which strands 301 and 302 are fused within fused regions 303 and 304 , and other aspects of woven textile 300 may be varied to impart specific properties to specific areas of woven textile 300 . As an example, fused regions 303 and 304 have different shapes (e.g., square and circular) in FIG. 24 . Accordingly, woven textile 300 may be engineered, designed, or otherwise structured to have particular properties in different areas.
  • Examples of properties that may be varied through the addition or the configuration of fused regions 303 and 304 include permeability, durability, and stretch-resistance.
  • permeability, durability, and stretch-resistance By forming one of fused regions 303 and 304 in a particular area of woven textile 400 , the permeability of that area generally decreases, whereas both durability and stretch-resistance generally increases.
  • the degree to which strands 301 and 302 are fused to each other has a significant effect upon the change in permeability, durability, and stretch-resistance.
  • Other factors that may affect permeability, durability, and stretch-resistance include the shapes, positions, and sizes of fused regions 303 and 304 , as well as the specific thermoplastic polymer material forming strands 301 and 302 .
  • Permeability generally relates to ability of air, water, and other fluids (whether gaseous or liquid) to pass through or otherwise permeate woven textile 300 .
  • the permeability may vary significantly. In general, the permeability is highest in areas of woven textile 300 where strands 301 and 302 are fused the least, and the permeability is lowest in areas of woven textile 300 where strands 301 and 302 are fused the most. As such, the permeability may vary along a spectrum depending upon the degree to which strands 301 and 302 are fused to each other.
  • Areas of woven textile 300 that are separate from fused regions 303 and 304 generally exhibit a relatively high permeability. Due to the openings between strands 301 and 302 , fused region 303 may also exhibit a relatively high permeability, but the permeability is generally less than in areas separate from fused regions 303 and 304 . Due to the non-filamentous state that effectively forms a solid polymer sheet, fused region 304 exhibits a relatively low permeability.
  • Durability generally relates to the ability of woven textile 300 to remain intact, cohesive, or otherwise undamaged, and may include resistances to wear, abrasion, and degradation from chemicals and light. Depending upon the degree to which strands 301 and 302 are fused to each other, the durability may vary significantly. Although the durability of any portion of woven textile 300 may be considered high, the durability is lowest in areas of woven textile 300 where strands 301 and 302 are fused the least, and the durability is highest in areas of woven textile 300 where strands 301 and 302 are fused the most. As such, the durability may vary along a spectrum depending upon the degree to which strands 301 and 302 are fused to each other.
  • fused region 303 may have lesser durability than fused region 304 .
  • Other factors that may affect the general durability of fused regions 303 and 304 and other areas of woven textile 300 include the initial thickness and density of woven textile 300 and the type of thermoplastic polymer material forming strands 301 and 302 .
  • Stretch-resistance generally relates to the ability of woven textile 300 to resist stretching when subjected to a textile force.
  • the stretch-resistance of woven textile 300 may vary significantly depending upon the degree to which strands 301 and 302 are fused to each other. Although the stretch-resistance of any portion of woven textile 300 may be considered high, the stretch-resistance is lowest in areas of woven textile 300 where strands 301 and 302 are fused the least, and the stretch-resistance is highest in areas of woven textile 300 where strands 301 and 302 are fused the most.
  • thermoplastic polymer material or other materials utilized for woven textile 300 may be considered elastomeric or may stretch at least one-hundred percent prior to tensile failure. Although the stretch-resistance of woven textile 300 may be greater in areas where strands 301 and 302 are fused the most, fused region 304 may still be elastomeric or may stretch at least one-hundred percent prior to tensile failure. Other factors that may affect the general stretch properties of fused regions 303 and 304 and other areas of woven textile 300 include the initial thickness and density of woven textile 300 and the type of thermoplastic polymer material forming strands 301 and 302 .
  • woven textile 300 may be incorporated into a variety of products, including various articles of apparel (e.g., shirts, footwear). Taking a shirt as an example, woven textile 300 may form a majority of the shirt, including a torso region and two arm regions. Given that moisture may accumulate within the shirt from perspiration, a majority of the shirt may be formed from portions of woven textile 300 that do not include fused regions 303 and 304 in order to provide a relatively high permeability. Given that elbow areas of the shirt may be subjected to relatively high abrasion as the shirt is worn, some of fused regions 303 and 304 may be located in the elbow areas to impart greater durability.
  • one of fused regions 303 and 304 may be located around the neck opening to impart greater stretch-resistance. Accordingly, one material (i.e., woven textile 300 ) may be used throughout the shirt, but by fusing different areas to different degrees, the properties may be advantageously-varied in different areas of the shirt.
  • the above discussion focused primarily on the properties of permeability, durability, and stretch-resistance.
  • a variety of other properties may also be varied through the addition or the configuration of fused regions 303 and 304 .
  • the overall density of woven textile 300 may be increased as the degree of fusing increases.
  • the transparency of woven textile 300 may also be increased as the degree of fusing increases.
  • the saturation of a color of woven textile 300 may also increase as the degree of fusing increases.
  • Fused regions 303 and 304 may also contrast visually with other areas.
  • the overall thickness of woven textile 300 may decrease as the degree of fusing increases.
  • the degree to which woven textile 300 recovers after being stretched, the overall flexibility of woven textile 300 , and resistance to various modes of failure may also vary depending upon the degree of fusing. Accordingly, a variety of properties may be varied by forming fused regions similar to fused regions 303 and 304 .
  • the properties of fused regions 403 and 404 may be different than the properties of unfused regions in knitted textile 400 .
  • the properties of fused region 403 may be different than the properties of one of fused region 404 .
  • the properties of one of fused regions 403 may be different than the properties of another of fused regions 403 .
  • the shapes of multiple fused regions 403 and 404 and other aspects of knitted textile 400 may be varied to impart specific properties to specific areas. Accordingly, knitted textile 400 may be engineered, designed, or otherwise structured to have particular properties in different areas, including the properties of permeability, durability, and stretch-resistance.
  • a composite element 500 is depicted in FIGS. 25 and 26 as including a first component 501 and a second component 502 that lay adjacent to each other and are thermal bonded to each other.
  • component 501 and 502 are depicted as having similar dimensions, first component 501 may have a lesser or greater length, a lesser or greater width, or a lesser or greater thickness than second component 502 . That is, the relative dimensions of components 501 and 502 may vary considerably depending upon the product in which composite element 500 is intended to be incorporated.
  • At least one of components 501 and 502 includes a thermoplastic polymer material.
  • Either or both of components 501 and 502 may be woven textile 300 , knitted textile 400 , other textiles that incorporate yarn 100 or thread 200 , or other textiles that incorporate a thermoplastic polymer material.
  • one of components 501 and 502 may be another textile (e.g., knitted, woven, non-woven), an element of polymer foam, a polymer sheet, or a plate.
  • each of components 501 and 502 may be woven textile 300
  • each of components 501 and 502 may be knitted textile 400
  • first component 501 may be woven textile 300 and second component 502 may be knitted textile 400
  • first component 501 may be woven textile 300 and second component 502 may be another textile formed from cotton, silk, thermoset polymer filaments, or other materials that do not include a thermoplastic polymer material
  • first component 501 may be knitted textile 400 and second component 502 may be an element of polymer foam formed from either thermoplastic or thermoset polymer material
  • first component 501 may be woven textile 300 and second component 502 may be a polymer sheet formed from either thermoplastic or thermoset polymer material
  • first component 501 may be knitted textile 400 and second component 502 may be a plate formed from metal, wood, or a rigid polymer formed from either thermoplastic or thermoset polymer material.
  • first component 501 may be woven textile 300 .
  • second component 502 is another textile that absorbs or wicks water, then the combination of woven textile 300 and second component 502 may be suitable for articles of apparel utilized during athletic activities where an individual wearing the apparel is likely to perspire.
  • second component 502 is a compressible material, such as an element of polymer foam, then the combination of woven textile 300 and second component 502 may be suitable for articles of apparel where cushioning (i.e., attenuation of impact forces) is advantageous, such as padding for athletic activities that may involve contact or impact with other athletes, equipment, or the ground.
  • second component 502 is a polymer sheet or plate
  • the combination of woven textile 300 and second component 502 may be suitable for articles of apparel that impart protection from acute impacts. Similar combinations may be formed where first component 501 is knitted textile 400 . Accordingly, a variety of materials or other components maybe joined through thermal bonding to either of textiles 300 and 400 form composite elements with additional properties.
  • FIGS. 27A-27C A general manufacturing process for forming composite element 500 will now be discussed with reference to FIGS. 27A-27C .
  • components 501 and 502 are located between a heat press having a pair of platens 11 , as depicted in FIG. 27A .
  • Platens 11 then translate or otherwise move toward each other in order to compress or induce contact between components 501 and 502 , as depicted in FIG. 27B . While compressed, heat is applied to form the thermal bond that joins components 501 and 502 .
  • the temperatures of components 501 and 502 are elevated to at least a glass transition temperature of a thermoplastic polymer material in one or both of components 501 and 502 , thereby causing softening or melting of the thermoplastic polymer material at the interface between components 501 and 502 .
  • a glass transition temperature of a thermoplastic polymer material in one or both of components 501 and 502 , thereby causing softening or melting of the thermoplastic polymer material at the interface between components 501 and 502 .
  • only one of platens 11 or both of platens 11 may be heated to elevate the temperatures of components 501 and 502 through conduction.
  • the thermal bonded composite element 500 may be removed and permitted to cool.
  • thermoplastic polymer material within other portions of components 501 and 502 may not heated significantly.
  • stitching or adhesives may also be utilized between components 501 and 502 to supplement the thermal bond.
  • thermoplastic polymer material in either of components 501 and 502 may be utilized to secure components 501 and 502 to each other.
  • a thermoplastic polymer material melts when heated and returns to a solid state when cooled sufficiently.
  • thermal bonding processes may be utilized to form a thermal bond that joins components 501 and 502 to each other.
  • the configuration of the thermal bond at least partially depends upon the materials and structure of components 501 and 502 .
  • each of components 501 and 502 may be woven textile 300 .
  • the thermoplastic polymer material from each element of woven textile 300 may intermingle with each other to secure components 501 and 502 to each other when cooled.
  • first component 501 and 502 are knitted textile 400 or when first component 501 is woven textile 300 and second component 502 is knitted textile 400 .
  • first component 501 may be woven textile 300 and second component 502 may be another textile formed from cotton, silk, or thermoset polymer filaments. Upon heating, the thermoplastic polymer material of woven textile 300 may extend around or bond with filaments in the other textile to secure components 501 and 502 to each other when cooled.
  • first component 501 may be knitted textile 400 and second component 502 may be an element of polymer foam (or a polymer sheet or plate) formed from a thermoplastic polymer material.
  • thermoplastic polymer materials of knitted textile 400 and the polymer foam may intermingle with each other to secure components 501 and 502 to each other when cooled. If, however, the polymer foam has a glass transition temperature that is higher than the thermoplastic polymer material of knitted textile 400 , then the thermoplastic polymer material of knitted textile 400 may extend into the structure, crevices, or cavities of the polymer foam to secure components 501 and 502 to each other when cooled.
  • first component 501 may be knitted textile 400 and second component 502 may be an element of polymer foam (or a polymer sheet or plate) formed from a thermoset polymer material.
  • thermoplastic polymer material of knitted textile 400 may extend into the structure, crevices, or cavities of the polymer foam to secure components 501 and 502 to each other when cooled. Accordingly, a thermal bond may be utilized to join components 501 and 502 even when components 501 and 502 have a variety of structures or are formed from a diverse range of materials.
  • either of components 501 and 502 may include various fused regions, similar to fused regions 303 , 304 , 403 , and 404 .
  • composite element 500 is depicted as incorporating woven textile 300 as first component 501 , and a fused region 304 is formed in woven textile 300 .
  • fused region 304 (or fused region 303 ) may be formed prior to joining woven textile 300 with second component 502 .
  • fused region 304 (or fused region 303 ) may be formed during the thermal bonding process or following the thermal bonding process.
  • fused regions 303 and 304 may be formed at any stage of the manufacturing process for composite elements.
  • composite element 500 in this example incorporates woven textile 300
  • knitted textile 400 may also be utilized in a similar manner. That is, a composite element incorporating knitted textile 400 may also include various fused regions 403 and 404 to impart varying properties.
  • textile elements When incorporated into products, such as apparel, textile elements are often joined at various seams.
  • stitching and adhesive bonding may be utilized to form a seam between the textile elements
  • the seam may also be formed through a thermal bonding process when at least one of the textile elements includes a thermoplastic polymer material. That is, a thermal bond may be utilized to form the seam in products that incorporate woven textile 300 , knitted textile 400 , or other textiles that incorporate a thermoplastic polymer material.
  • a seam element 600 is depicted in FIGS. 29 and 30 as including a first component 601 and a second component 602 with edge areas that are thermal bonded at a seam 603 .
  • first component 601 may have a lesser or greater length, a lesser or greater width, or a lesser or greater thickness than second component 602 . That is, the relative dimensions of components 601 and 602 may vary considerably depending upon the product in which seam 603 is intended to be incorporated.
  • At least one of components 601 and 602 includes a thermoplastic polymer material.
  • Either or both of components 601 and 602 may be woven textile 300 , knitted textile 400 , other textiles that incorporate yarn 100 or thread 200 , or other textiles that incorporate a thermoplastic polymer material.
  • one of components 601 and 602 may be another textile (e.g., knitted, woven, non-woven), an element of polymer foam, or a polymer sheet, for example.
  • each of components 601 and 602 may be woven textile 300
  • each of components 601 and 602 may be knitted textile 400
  • first component 601 may be woven textile 300 and second component 602 may be knitted textile 400
  • first component 601 may be woven textile 300 and second component 602 may be another textile formed from cotton, silk, thermoset polymer filaments, or other materials that do not include a thermoplastic polymer material
  • first component 601 may be knitted textile 400 and second component 602 may be an element of polymer foam formed from either thermoplastic or thermoset polymer material
  • first component 601 may be woven textile 300 and second component 602 may be a polymer sheet formed from either thermoplastic or thermoset polymer material.
  • seam-forming dies 12 In order to form the thermal bond and join the edge areas of components 601 and 602 , seam-forming dies 12 apply heat to the edge areas. That is, seam-forming dies 12 elevate the temperature of the edge areas of components 601 and 602 to cause softening or melting of the thermoplastic polymer material at the interface between the edge areas.
  • the temperature of the edge areas is generally raised to at least the glass-transition temperature of the thermoplastic polymer material forming one or both of components 601 and 602 , the temperature may also exceed the melting temperature.
  • seam 603 is formed between the edge areas of components 601 and 602 .
  • components 601 and 602 may be unfolded, as depicted in FIG. 31D .
  • Seam 603 may also be trimmed to limit the degree to which the end areas protrude outward at seam 603 .
  • other methods that include radio frequency heating, ultrasonic heating, radiant heating, laser heating, or chemical heating may be utilized.
  • the formation of seam 603 involves softening or melting the thermoplastic polymer material in one or both of components 601 and 602 .
  • the degree to which the thermoplastic polymer material in components 601 and 602 softens or melts may vary significantly.
  • the thermal bond at seam 603 may range from (a) a state where filaments or strands in components 601 and 602 remain separate and identifiable, as in fused regions 303 and 403 , to (b) a state where filaments or strands in components 601 and 602 form a larger mass of thermoplastic polymer material, as in fused regions 304 and 404 .
  • the thermoplastic polymer material in either of components 601 and 602 may be utilized to secure components 601 and 602 to each other at seam 603 .
  • the configuration of the thermal bond at seam 603 at least partially depends upon the materials and structure of components 601 and 602 .
  • each of components 601 and 602 may be woven textile 300 .
  • the thermoplastic polymer material from each element of woven textile 300 may intermingle with each other to secure components 601 and 602 to each other when cooled.
  • Similar processes may be utilized when each of components 601 and 602 are knitted textile 400 or when first component 601 is woven textile 300 and second component 602 is knitted textile 400 .
  • first component 601 may be woven textile 300 and second component 602 may be another textile formed from cotton, silk, or thermoset polymer filaments. Upon heating, the thermoplastic polymer material of woven textile 300 may extend around or bond with filaments in the other textile to secure components 601 and 602 to each other when cooled.
  • first component 601 may be knitted textile 400 and second component 602 may be an element of polymer foam (or a polymer sheet) formed from a thermoplastic polymer material. Upon heating, the thermoplastic polymer materials of knitted textile 400 and the polymer foam may intermingle with each other to secure components 601 and 602 to each other when cooled.
  • first component 601 may be knitted textile 400 and second component 602 may be an element of polymer foam (or a polymer sheet) formed from a thermoset polymer material.
  • the thermoplastic polymer material of knitted textile 400 may extend into the structure, crevices, or cavities of the polymer foam to secure components 601 and 602 to each other when cooled.
  • a thermal bond forming seam 603 may be utilized to join components 601 and 602 even when components 601 and 602 have a variety of structures or are formed from a diverse range of materials.
  • either of components 601 and 602 may include various fused regions. Moreover, the fused regions may extend across seam 603 As an example of this, FIG. 32 depicts seam element 600 as incorporating woven textile 300 for first component 601 and knitted textile 400 as second component 602 .
  • Woven textile 300 includes a fused region 303 in an area spaced from seam 603
  • knitted textile 400 includes a fused region 403 in an area spaced from seam 603 .
  • Seam element 600 also includes a larger fused region that extends across seam 603 and includes elements of both fused regions 304 and 404 .
  • fused regions 303 , 304 , 403 , and 404 may be formed prior to joining components 601 and 602 at seam 603 . In other processes, however, one or more of fused regions 303 , 304 , 403 , and 404 may be formed during the thermal bonding process or following the thermal bonding process that forms seam 603 . Accordingly, fused regions 303 , 304 , 403 , and 404 may be formed at any stage of the process for forming seam 603 .
  • the edge areas of components 601 and 602 are heated and compressed.
  • the heating and compression may also cause the edge areas of components 601 and 602 to compress or reduce in thickness.
  • processes that form a thermal bond, as at seam 603 may effectively cause thinning in the area of the thermal bond. This effect may be seen in FIG. 30 , as well as various other figures discussed below. Although not always depicted, similar effects may occur at any of fused regions 303 , 304 , 403 , and 404 or at any other location where thermal bonding or fusing occurs.
  • seam component 600 includes components 601 and 602 , which are joined to form a seam 604 .
  • an edge area of first component 601 overlaps and is joined with an edge of second component 602 at seam 604 .
  • stitching or adhesive bonding may also be utilized to reinforce seam 604 .
  • FIGS. 35A-35C A general manufacturing process for forming seam 604 will now be discussed with reference to FIGS. 35A-35C .
  • components 601 and 602 are positioned in an overlapping configuration between seam-forming dies 12 , as depicted in FIG. 35A .
  • Seam-forming dies 12 then translate or otherwise move toward each other in order to compress or induce contact between edge areas of components 601 and 602 , as depicted in FIG. 35B .
  • seam-forming dies 12 apply heat to the edge areas.
  • seam-forming dies 12 elevate the temperature of the edge areas of components 601 and 602 to cause softening or melting of the thermoplastic polymer material at the interface between the edge areas, thereby inducing thermal bonding and forming seam 604 .
  • the temperature of the edge areas is generally raised to at least the glass-transition temperature of the thermoplastic polymer material forming one or both of components 601 and 602 , the temperature may also exceed the melting temperature.
  • Thermal bonding is utilized to join components 601 and 602 at the various seams 603 and 604 discussed above. Although thermal bonding alone is sufficient, stitching or adhesive bonding may also be utilized to reinforce seams 603 and 604 . Moreover, stitching may be utilized to temporarily join or otherwise pre-join components 601 and 602 prior to thermal bonding. When the stitching (e.g., yarn, thread, monofilament) incorporates a thermoplastic polymer material, the stitching may also form a thermal bond with each of components 601 and 602 . Depending upon the temperature at which thermal bonding occurs, the stitching may also melt into the structure of components 601 and 602 .
  • the stitching e.g., yarn, thread, monofilament
  • components 601 and 602 are joined to form seam 603 .
  • At least one of components 601 and 602 includes a thermoplastic polymer material, which we will refer to as a “first thermoplastic polymer material” for purposes of the present discussion.
  • components 601 and 602 are thermal bonded to each other with the first thermoplastic polymer material at seam 603 .
  • a stitching strand 605 extends through components 601 and 602 at seam 603 , thereby stitching components 601 and 602 together.
  • Stitching strand 605 also includes a thermoplastic polymer material, which we will refer to as a “second thermoplastic polymer material” for purposes of the present discussion. Given that stitching strand 605 includes the second thermoplastic polymer material, stitching strand 605 may be thermal bonded to components 601 and 602 with the second thermoplastic polymer material at seam 603 .
  • Stitching strand 605 may be a yarn, thread, or monofilament, for example.
  • stitching strand 605 may have the general configuration of thread 200 .
  • stitching strand 605 may include two or more yarns (e.g., yarns 201 ) that are twisted with each other.
  • the yarns may include a plurality of substantially aligned filaments (e.g., filaments 202 ) that are substantially formed from the second thermoplastic polymer material.
  • at least ninety-five percent, ninety-nine percent, or one-hundred percent of a material of the filaments in stitching strand 605 may be the second thermoplastic polymer material.
  • stitching strand 605 is depicted as forming a zigzag stitch, other stitch configurations may be used for joining components 601 and 602 with stitching strand 605 .
  • seam 603 effectively includes two thermal bonds.
  • the first thermal bond is formed by the first thermoplastic polymer material from one or both of components 601 and 602 . Although the first thermal bond primarily joins components 601 and 602 to each other, thereby forming seam 603 , the first thermal bond may also join stitching strand 605 to components 601 and 602 .
  • the second thermal bond is formed by the second thermoplastic polymer material from stitching strand 605 . Although the second thermal bond primarily joins stitching strand 605 to components 601 and 602 , the second thermal bond may also join (a) sections of stitching strand 605 to each other or (b) components 601 and 602 to each other.
  • An advantage of utilizing the first and second thermal bonds relates to strength. That is, seam 603 may exhibit greater strength than seams that are only utilize one of stitching or thermal bonding.
  • the first thermoplastic polymer material and the second thermoplastic polymer material may be the same thermoplastic polymer material. That is, the thermoplastic polymer materials of components 601 and 602 and stitching strand 605 may be the same thermoplastic polymer material (e.g., both being thermoplastic polyurethane) with common glass transition and melting temperatures. Similarly, the first thermoplastic polymer material and the second thermoplastic polymer material may be the same thermoplastic polymer material (e.g., both being thermoplastic polyurethane), but with different glass transition and melting temperatures. As an example, the first and second thermoplastic polymer materials may be thermoplastic polyurethane, with the first thermoplastic polymer material having higher glass transition and melting temperatures than the second thermoplastic polymer material. Additionally, the first thermoplastic polymer material and the second thermoplastic polymer material may be different thermoplastic polymer materials, such as thermoplastic polyurethane and thermoplastic polyolefin.
  • thermoplastic polymer material An advantage of incorporating the same thermoplastic polymer material into components 601 and 602 and stitching strand 605 relates to thermal bonding compatibility. Although different thermoplastic polymer materials may form thermal bonds with each other, thermal bonds may form more easily and with greater strength when components 601 and 602 and stitching strand 605 are formed from the same thermoplastic polymer material. A further advantage may be gained when components 601 and 602 and stitching strand 605 include the same thermoplastic polymer material, but with different glass transition and melting temperatures.
  • the degree to which the first thermoplastic polymer material in components 601 and 602 softens or melts may be less than the degree to which the second thermoplastic polymer material in stitching strand 605 softens or melts when forming (a) the first thermal bond between components 601 and 602 and (b) the second thermal bond between stitching strand 605 and components 601 and 602 .
  • stitching strand 605 is clearly seen as stitching components 601 and 602 together. Although stitching strand 605 may be thermal bonded with components 601 and 602 , stitching strand 605 remains coherent in this configuration, possibly with individual yarns or filaments within stitching strand 605 remaining identifiable. In this configuration, the second thermoplastic polymer material of stitching strand 605 may form thermal bonds at areas of contact with components 601 and 602 , but may not melt to form thermal bonds in other areas. As another example, FIG.
  • stitching strand 605 as having a less coherent structure, which indicates some degree of melting in stitching strand 605 . That is, the second thermoplastic polymer material of stitching strand 605 may have melted so as to extend around yarns or filaments in components 601 and 602 , and some of the second thermoplastic polymer material may have been wicked or otherwise drawn into the filamentous structure of components 601 and 602 . Referring to FIG. 37B , stitching strand 605 has an even less coherent structure, which indicates a greater degree of melting in stitching strand 605 .
  • the second thermoplastic polymer material of stitching strand 605 may have melted so as to extend around more distant yarns or filaments in components 601 and 602 , and a greater amount of the second thermoplastic polymer material may have been wicked or otherwise drawn into the filamentous structure of components 601 and 602 .
  • FIG. 37C depicts a configuration wherein stitching strand 605 has significantly melted and is almost entirely wicked or otherwise drawn into the filamentous structure of components 601 and 602 .
  • stitching strand 605 remains within seam 305
  • stitching strand 605 is entirely non-coherent and is effectively absorbed or otherwise integrated into the structure of components 601 and 602 .
  • the degree to which individual yarns or filaments within stitching strand 605 soften or melt when heated to form the thermal bond may affect the strength of seam 305 , as well as the aesthetic properties of articles of apparel or other products that incorporate seam 603 .
  • FIGS. 36 and 37 A- 37 C demonstrate variations in the degree to which stitching strand 605 softens or melts when forming the thermal bond with the elements of components 601 and 602 .
  • the thermal bond formed by the first thermoplastic polymer material from the elements of components 601 and 602 may vary in a similar manner. In many configurations, however, the first thermoplastic polymer material of components 601 and 602 may melt or soften to a lesser degree than the second thermoplastic polymer material of stitching strand 605 .
  • An advantage of lesser melting or softening of the first thermoplastic polymer material is that a fibrous or filamentous structure of components 601 and 602 , when formed from textiles (e.g., textile 200 or 300 ), remains intact or otherwise coherent.
  • the lesser melting or softening of the first thermoplastic polymer material may ensure that seam 603 remain flexible and does not form hard areas of the apparel that may cause discomfort to the wearer. Additionally, the lesser melting or softening of the first thermoplastic polymer material in one or both of components 601 and 602 may enhance the aesthetic properties of the apparel.
  • thermoplastic polymer material of components 601 and 602 melts or softens to a lesser degree than the second thermoplastic polymer material of stitching strand 605
  • different melting and glass transition temperatures may be selected for each of the first and second thermoplastic polymer materials. More particularly, the melting and glass transition temperatures of the first thermoplastic polymer material may be higher than the respective melting and glass transition temperatures of the second thermoplastic polymer material. That is, the melting temperature of the first thermoplastic polymer material is higher than the melting temperature of the second thermoplastic polymer material, and the glass transition temperature of the first thermoplastic polymer material is higher than the glass transition temperature of the second thermoplastic polymer material. Depending upon the desired degree of melting or softening of the second thermoplastic polymer material, as in FIGS.
  • the melting temperature of the second thermoplastic polymer material may be higher or lower than the glass transition temperature of the first thermoplastic polymer material. More particularly, for example, stitching strand 605 may melt more (e.g., FIGS. 37B and 37C ) in configurations where the melting temperature of the second thermoplastic polymer material is lower than the glass transition temperature of the first thermoplastic polymer material, and stitching strand 605 may melt less (e.g., FIGS. 36 and 37A ) in configurations where the melting temperature of the second thermoplastic polymer material is higher than the glass transition temperature of the first thermoplastic polymer material.
  • the temperatures may vary significantly, examples values for the melting and glass transition temperatures of the first and second thermoplastic polymer materials will now be discussed.
  • the first thermoplastic polymer material of components 601 and 602 may be thermoplastic polyurethane with a glass transition temperature of 180 degrees Celsius and a melting temperature of 210 degrees Celsius
  • the second thermoplastic polymer material of stitching strand 605 may be thermoplastic polyurethane with a glass transition temperature of 140 degrees Celsius and a melting temperature of 160 degrees Celsius. With these temperatures, the melting temperature of the second thermoplastic polymer material is lower than the glass transition temperature of the first thermoplastic polymer material.
  • the first thermoplastic polymer material of components 601 and 602 may be thermoplastic polyurethane with a glass transition temperature of 170 degrees Celsius and a melting temperature of 210 degrees Celsius
  • the second thermoplastic polymer material of stitching strand 605 may be thermoplastic polyurethane with a glass transition temperature of 150 degrees Celsius and a melting temperature of 190 degrees Celsius. With these temperatures, the melting temperature of the second thermoplastic polymer material is higher than the glass transition temperature of the first thermoplastic polymer material.
  • components 601 and 602 are located within a stitching machine 13 that dispenses stitching strand 605 and extends stitching strand 605 through components 601 and 602 , thereby stitching edge areas of components 601 and 602 together.
  • stitching machine 13 may also dispense a bobbin strand (not depicted).
  • Stitching machine 13 may be any conventional sewing machine, surger, or device that performs a stitching operation. Hand stitching may also be utilized. Although the relatively simple configuration of components 601 and 602 is depicted, many articles of apparel and other products may be formed from multiple components or other material elements.
  • joining components 601 and 602 with stitching strand 605 serves to temporarily join or otherwise pre-join components 601 and 602 prior to thermal bonding.
  • stitching strand 605 temporarily joins the multiple components or other elements of an article of apparel or other product prior to thermal bonding.
  • edge areas of components 601 and 602 that include stitching strand 605 are located between the pair of seam-forming dies 12 , as depicted in FIG. 38B .
  • Seam-forming dies 12 then translate or otherwise move toward each other in order to compress or induce contact between the edge areas of components 601 and 602 , as depicted in FIG. 38C .
  • Seam-forming dies 12 also apply heat to components 601 and 602 and stitching strand 605 to (a) form a first thermal bond with the first thermoplastic polymer material from components 601 and 602 , thereby joining components 601 and 602 to each other at seam 603 and (b) form a second thermal bond with the second thermoplastic polymer material from stitching strand 605 , thereby joining stitching strand 605 to components 601 and 602 . Accordingly, heat from seam-forming dies 12 effectively forms two thermal bonds at seam 603 .
  • seam 603 is formed permitted to cool.
  • Components 601 and 602 may then be unfolded, as depicted in FIG. 38E .
  • Seam 603 may also be trimmed to limit the degree to which the end areas protrude outward at seam 603 .
  • other methods that include radio frequency heating, ultrasonic heating, radiant heating, laser heating, or chemical heating may be utilized.
  • the degree of thermal bonding in seam 603 may vary significantly. In some configurations, as discussed above, advantages may be gained with a lesser degree of melting or softening of the first thermoplastic polymer material in components 601 and 602 . In order to ensure that (a) the fibrous or filamentous structure of components 601 and 602 remains intact or otherwise coherent and (b) stitching strand 605 melts or softens to a greater degree, the melting and glass transition temperatures of the first thermoplastic polymer material are higher than the respective melting and glass transition temperatures of the second thermoplastic polymer material.
  • the melting temperature of the first thermoplastic polymer material is higher than the melting temperature of the second thermoplastic polymer material
  • the glass transition temperature of the first thermoplastic polymer material is higher than the glass transition temperature of the second thermoplastic polymer material.
  • the melting temperature of the second thermoplastic polymer material may be higher or lower than the glass transition temperature of the first thermoplastic polymer material.
  • FIG. 39A depicts a graph of the manner in which the temperature of seam 603 changes between the steps discussed above for FIGS. 38B-38D . Moreover, this graph shows the situation where the melting temperature of the second thermoplastic polymer material is higher than the glass transition temperature of the first thermoplastic polymer material.
  • the elements of seam 603 i.e., components 601 and 602 and stitching strand 605
  • the elements of seam 603 Prior to being compressed by seam forming dies 12 , the elements of seam 603 (i.e., components 601 and 602 and stitching strand 605 ) are at a constant initial temperature, which may room temperature of a factory. Once compressed by seam-forming dies 12 , the temperature of the elements of seam 603 rises to exceed the glass transition temperatures of both the first and second thermoplastic polymer materials.
  • thermal bonding may occur (a) between components 601 and 602 and (b) between stitching strand 605 and components 601 and 602 . That is, both thermal bonds may be formed when the temperature of the components of seam 603 exceeds the two glass transition temperatures.
  • the melting temperature of the second thermoplastic polymer material is higher than the glass transition temperature of the first thermoplastic polymer material.
  • the second thermoplastic polymer material in stitching strand 605 does not reach the melting point in this example.
  • stitching strand 605 may melt to a lesser degree, as in the configurations of FIGS. 36 and 37A .
  • FIG. 39B also depicts a graph of the manner in which the temperature of seam 603 changes between the steps discussed above for FIGS. 38B-38D . Moreover, this graph shows the situation where the melting temperature of the second thermoplastic polymer material is lower than the glass transition temperature of the first thermoplastic polymer material.
  • the elements of seam 603 i.e., components 601 and 602 and stitching strand 605
  • the elements of seam 603 Prior to being compressed by seam forming dies 12 , the elements of seam 603 (i.e., components 601 and 602 and stitching strand 605 ) are at a constant initial temperature, which may room temperature of a factory. Once compressed by seam-forming dies 12 , the temperature of the components of seam 603 rises to exceed the glass transition temperature of the first thermoplastic polymer material.
  • thermal bonding may occur (a) between components 601 and 602 and (b) between stitching strand 605 and components 601 and 602 . That is, both thermal bonds may be formed when the temperature of the components of seam 603 exceeds the glass transition temperature of the first thermoplastic polymer material.
  • the melting temperature of the second thermoplastic polymer material is lower than the glass transition temperature of the first thermoplastic polymer material.
  • the second thermoplastic polymer material in stitching strand 605 reaches the melting point in this example.
  • stitching strand 605 may melt to a greater degree, as in the configurations of FIGS. 37B and 37C .
  • the glass transition temperatures and the melt temperatures of the first and second thermoplastic polymer materials may conform to the relationships discussed above, other relationships may also be utilized.
  • the melting temperature of the second thermoplastic polymer material may be higher than the melting temperature of the first thermoplastic polymer material
  • the glass transition temperature of the second thermoplastic polymer material may be between the glass transition and melting temperatures of the first thermoplastic material.
  • the glass transition and melting temperatures of the second thermoplastic polymer material may be higher than the melting temperature of the first thermoplastic polymer material.
  • seam 604 effectively includes two thermal bonds.
  • the first thermal bond is formed by the first thermoplastic polymer material from components 601 and 602 .
  • the second thermal bond is formed by the second thermoplastic polymer material from stitching strand 605 .
  • FIGS. 1-40 disclose various elements that may be incorporated into a variety of products, including (a) yarn 100 , thread 200 , woven textile 300 , and knitted textile 400 ; (b) fused regions 303 , 304 , 403 , and 404 ; (c) composite element 500 ; (d) seams 603 and 604 from seam element 600 , with or without stitching strand 605 ; and (e) thermal bonding to join or fuse. Any of these various elements may be utilized alone or in combination in articles of apparel, such as shirts, pants, socks, footwear, outerwear, undergarments, and headwear.
  • various aspects of the various elements may also be utilized in containers, upholstery for furniture, bed coverings, table coverings, towels, flags, tents, sails, and parachutes, as well as industrial purposes that include automotive and aerospace applications, filter materials, medical textiles, geotextiles, agrotextiles, and industrial apparel. Accordingly, the various elements may be utilized in a variety of products for both personal and industrial purposes.
  • a first configuration of shirt 700 is depicted in FIG. 41 as including a torso region 701 and a pair of arm regions 702 .
  • Torso region 701 corresponds with a torso of a wearer and covers at least a portion of the torso when worn.
  • An upper area of torso region 701 defines a neck opening 703 through which the neck and head of the wearer protrude when shirt 700 is worn.
  • a lower area of torso region 701 defines a waist opening 704 through which the waist or pelvic area of the wearer protrudes when shirt 700 is worn.
  • Arm regions 702 extend outward from torso region 701 and respectively correspond with a right arm and a left arm of the wearer when shirt 700 is worn.
  • one of arm regions 702 covers at least a portion of the right arm, and the other of arm regions 702 covers at least a portion of the left arm.
  • Each of arm regions 702 define an arm opening 705 through which the hands, wrists, or arms of the wearer protrude when shirt 700 is worn.
  • Torso region 701 and arm regions 702 are formed from various textile elements 706 that are joined at a plurality of seams 707 .
  • Textile elements 706 are generally formed to have the configuration of woven textile 300 , knitted textile 400 , or any other textile that incorporates a thermoplastic polymer material.
  • textile elements 706 may incorporate strands (e.g., yarn 100 , thread 200 ) that have a plurality of substantially aligned filaments formed from a thermoplastic polymer material.
  • each of textile elements 706 may be woven or knitted, other textile elements 706 may be a non-woven textile or a polymer sheet, for example, that incorporates a thermoplastic polymer material.
  • textile elements 706 may also be formed from cotton, silk, thermoset polymer filaments, or other materials that do not include a thermoplastic polymer material.
  • Shirt 700 may also include elastic components, zippers, hook-and-loop fasteners, or other closure devices, for example.
  • seams 707 extend between torso region 701 and arm regions 702 in order to join various textile elements 706 together.
  • additional seams 707 may extend along (a) side areas of torso region 701 to join front and back textile elements 706 and (b) rear areas of arm regions 702 to join edge areas of the textile element 706 forming each arm region 702 , for example.
  • seams 707 define regions where edge areas of textile elements 706 are joined with each other, possibly through thermal bonding. Referring to FIG. 42A , one of seams 707 is depicted as having the general configuration of seam 603 , but may also have the general configuration of seam 604 .
  • an article of apparel incorporating textile elements formed from a thermoplastic polymer material may include thermal bonds that join textile elements at various seams.
  • edge areas of textile elements 706 are joined at seams 707 .
  • Other edge areas are present at openings 703 , 704 , and 705 .
  • various types of thermal bonds may be employed. Referring to FIG. 42B , the edge area of textile element 706 that forms waist opening 704 is thermal bonded to effectively fuse the various strands within textile element 706 . That is, filaments or yarns that incorporate a thermoplastic polymer material may be thermal bonded with each other adjacent to waist opening 704 to prevent fraying or unraveling of strands forming textile elements 706 .
  • FIG. 42C Another manner in which thermal bonding may be utilized to prevent fraying or unraveling is depicted in FIG. 42C . More particularly, the edge area of textile element 706 at one of arm openings 705 is turned inward and folded back on itself. A thermal bond is formed to join surfaces of textile element 706 , and the thermal bond also effectively fuses the various strands within textile element 706 . That is, filaments or yarns that incorporate a thermoplastic polymer material may be thermal bonded with each other adjacent to arm openings 705 to prevent fraying or unraveling of strands forming textile elements 706 .
  • a second configuration of shirt 700 is depicted in FIG. 43 as having many of the features discussed with reference to FIG. 41 .
  • seams 707 may exhibit the configuration in FIG. 42A
  • seam 707 is depicted in FIG. 44A as having the general configuration of seam 604 .
  • an edge area of one textile element 706 overlaps and is thermal bonded with an edge of the other textile element 706 .
  • a variety of seam configurations, including those of seams 603 and 604 may be utilized in articles of apparel.
  • fused regions 708 are formed in textile elements 706 . More particularly, fused regions 708 are formed around neck opening 703 , waist opening 704 , and each of arm openings 705 . Given that each of openings 703 - 705 may be stretched as shirt 700 is put on an individual and taken off the individual, fused regions 708 are located around openings 703 - 705 in order to impart greater stretch-resistance to these areas. Strands incorporating a thermoplastic polymer material in fused regions 708 are generally fused to a greater degree than in other areas of shirt 700 . Similar to the discussion of FIGS. 42B and 42C above, some of fused regions 708 may prevent fraying or unraveling in the areas around openings 703 - 705 .
  • fused regions 708 may be located in the elbow areas to impart greater durability.
  • backpack straps that extend over shoulder areas of shirt 700 may abrade and stretch the shoulder areas.
  • Additional fused regions 708 are, therefore, located in the shoulder areas of shirt 200 to impart both durability and stretch-resistance.
  • Portions of textile elements 706 that are located in the shoulder areas and around seams 707 effectively form both seams 707 and fused regions 708 in the shoulder areas.
  • Two separate processes may be utilized to form these areas. That is, one thermal bonding process may form seams 707 , and another thermal bonding process may form fused regions 708 in the shoulder areas. In some processes, however, seams 707 and fused regions 708 in the shoulder areas may be formed through a single thermal bonding process.
  • fused regions 708 areas of textile elements 706 are heated and compressed. In addition to fusing strands within textile elements 706 , the heating and compression may also cause fused regions 708 to compress or reduce in thickness. More particularly, processes that form a fused regions 708 may effectively cause thinning in the areas of fused regions 708 . This effect may be seen in FIG. 44B and may occur in other locations where thermal bonding or fusing forms areas similar to fused regions 303 , 304 , 403 , 404 , and 708 .
  • a third configuration of shirt 700 is depicted in FIG. 45 as including various components 709 are secured to textile elements 706 . More particularly, components 709 are thermal bonded to an interior surface of shirt 700 , as depicted in FIGS. 46A-46C . In other configurations, components 700 may be secured to an exterior surface of shirt 700 .
  • Components 709 may be additional textile elements that may incorporate thermoplastic polymer materials or may be formed from other materials. Additionally, components 709 may be a compressible material, such as elements of polymer foam. Components 709 may also be a polymer sheet or plate. Moreover, each of components 709 may be formed from different materials to impart different properties to areas of shirt 700 . In effect, the combination of textile elements 706 and components 709 form structures similar to composite element 500 .
  • Components 709 may have various configurations. If component 709 is another textile that absorbs or wicks water, then the combination of textile elements 706 and the other textile may be suitable for configurations of shirt 700 utilized during athletic activities where an individual wearing shirt 700 is likely to perspire. If component 709 is a compressible material, such as an element of polymer foam, then the combination of textile elements 706 and the compressible material may be suitable for configurations of shirt 70 where cushioning (i.e., attenuation of impact forces) is advantageous, such as padding for athletic activities that may involve contact or impact with other athletes, equipment, or the ground. If component 709 is a polymer sheet or plate, then the combination of textile elements 706 and the polymer sheet or plate may be suitable for articles of apparel that impart protection from acute impacts. Accordingly, a variety of materials or other components maybe joined through thermal bonding to textile elements 706 of shirt 700 .
  • fused regions 708 are also formed in textile elements 706 and adjacent to some of components 709 .
  • two fused regions 708 extend around the areas where components 709 are located in the side areas of torso region 701 .
  • a pair of fused regions 708 extend over the areas where components 709 are located in the elbow areas of arm regions 702 .
  • These fused regions 708 may be utilized to reinforce or add stretch-resistance to areas surrounding components 709 or provide greater durability to areas over components 709 , for example.
  • a fourth configuration of shirt 700 is depicted in FIG. 47 as including a pocket 710 , which may be utilized to hold or otherwise contain relatively small objects (e.g., keys, wallet, identification card, mobile phone, portable music player).
  • Pocket 710 is formed as two overlapping layers of material, at least one of which is textile element 708 . Additionally, a thermal bond is utilized to join the overlapping layers of material to each other. That is, a thermal bond joins a periphery of the material element forming pocket 710 to textile element 706 . A central area of pocket 710 remains unbonded.
  • a pocket similar to pocket 710 may also be formed in other products and articles of apparel, including pants and jackets.
  • textile elements including a thermoplastic polymer material may be utilized in shirt 700 .
  • shirt 700 e.g., textiles 300 and 400
  • many other types of apparel have constructions that are similar to shirt 700 . That is, pants, socks, outerwear, undergarments, and headwear are all formed from one or more textile elements joined at seams.
  • These other types of apparel may, therefore, incorporate structures that are substantially similar to seams 707 (i.e., seams 603 , 604 ).
  • various structures that are substantially similar to fused regions 708 i.e., fused regions 303 , 304 , 403 , 404 ) may also be utilized.
  • the other types of apparel may also incorporate structures that are substantially similar to components 709 (i.e., components 501 , 502 ).
  • components 709 i.e., components 501 , 502
  • various properties and combinations of properties may be imparted to different areas of the apparel. That is, the various concepts disclosed herein may be utilized individually or in combination to engineer the properties of apparel to a specific purpose.
  • a first configuration of footwear 800 is depicted in FIG. 49 as including a sole structure 810 and an upper 820 .
  • Sole structure 810 is secured to a lower area of upper 820 and extends between upper 820 and the ground.
  • Upper 820 provides a comfortable and secure covering for a foot of a wearer. As such, the foot may be located within upper 820 , which effectively secures the foot within footwear 800 , and sole structure 810 extends under the foot to attenuate forces, enhance stability, or influence the motions of the foot, for example.
  • Sole structure 810 includes a midsole 811 , an outsole 812 , and an sockliner 813 .
  • Midsole 811 is secured to a lower surface of upper 820 and may be formed from a compressible polymer foam element (e.g., a polyurethane or ethylvinylacetate foam) that attenuates ground reaction forces (i.e., provides cushioning) when compressed between the foot and the ground during walking, running, or other ambulatory activities.
  • a compressible polymer foam element e.g., a polyurethane or ethylvinylacetate foam
  • midsole 811 may incorporate fluid-filled chambers, plates, moderators, or other elements that further attenuate forces, enhance stability, or influence the motions of the foot, or midsole 811 may be primarily formed from a fluid-filled chamber.
  • Outsole 812 is secured to a lower surface of midsole 811 and may be formed from a wear-resistant rubber material that is textured to impart traction.
  • Sockliner 813 is located within upper 820 , as depicted in FIG. 50 , and is positioned to extend under a lower surface of the foot.
  • this configuration for sole structure 810 provides an example of a sole structure that may be used in connection with upper 820 , a variety of other conventional or nonconventional configurations for sole structure 810 may also be utilized.
  • Upper 820 may be formed from a variety of elements that are joined together to form a structure for receiving and securing the foot relative to sole structure 810 . As such, upper 820 extends along opposite sides of the foot, over the foot, around a heel of the foot, and under the foot. Moreover, upper 820 defines a void 821 , which is a generally hollow area of footwear 800 , that has a general shape of the foot and is intended to receive the foot. Access to void 821 is provided by an ankle opening 822 located in at least a heel region. A lace 823 extends through various lace apertures 824 and permits the wearer to modify dimensions of upper 820 to accommodate the proportions of the foot.
  • lace 823 permits the wearer to tighten upper 820 around the foot, and lace 823 permits the wearer to loosen upper 820 to facilitate entry and removal of the foot from the void (i.e., through ankle opening 822 ).
  • upper 820 may include other lace-receiving elements, such as loops, eyelets, hooks, and D-rings.
  • upper 820 includes a tongue 825 that extends between void 821 and lace 823 to enhance the comfort and adjustability of footwear 800 .
  • upper 820 may also incorporate other elements, such as reinforcing members, aesthetic features, a heel counter that limits heel movement, a wear-resistant toe guard, or indicia (e.g., a trademark) identifying the manufacturer. Accordingly, upper 820 is formed from a variety of elements that form a structure for receiving and securing the foot.
  • Portions of upper 820 that extend along sides of the foot, over the foot, and under the foot include various textile elements 826 , which are generally formed to have the configuration of woven textile 300 , knitted textile 400 , or any other textile that incorporates a thermoplastic polymer material.
  • textile elements 826 may incorporate strands (e.g., yarn 100 , thread 200 ) that have a plurality of substantially aligned filaments formed from a thermoplastic polymer material.
  • each of textile elements 826 may be woven or knitted, other textile elements 826 may be a non-woven textile or a polymer sheet, for example, that incorporates a thermoplastic polymer material.
  • Some of textile elements 826 may also be formed from cotton, silk, thermoset polymer filaments, or other materials that do not include a thermoplastic polymer material.
  • Tongue 825 may also incorporate one or more of textile elements 826 .
  • seams 827 define regions where edge areas of textile elements 826 are joined with each other, possibly through thermal bonding.
  • two seams 827 are located on opposite sides of upper 820 and join a textile element 826 that forms lace apertures 824 with a textile element 826 that extends along sides of the foot.
  • These seams 827 exhibit the general configuration of seam 603 , but may also have the general configuration of seam 604 .
  • An advantage to the configuration of seam 604 is that the edge areas of textile element 826 do not protrude inward, which may cause discomfort for the wearer.
  • two seams 827 are located on opposite sides of upper 820 and join the textile element 826 that extends along sides of the foot with a textile element 826 that extends under the foot, which may be a strobel material.
  • These seams 827 exhibit the general configuration of seam 604 , but may also have the general configuration of seam 603 . Accordingly, various textile elements 826 may be joined with seams 827 , which may be formed through the various thermal bonding processes discussed above for forming seams 603 and 604 .
  • Two of seams 707 extend between torso region 701 and arm regions 702 in order to join various textile elements 706 together.
  • additional seams 707 may extend along (a) side areas of torso region 701 to join front and back textile elements 706 and (b) rear areas of arm regions 702 to join edge areas of the textile element 706 forming each arm region 702 , for example.
  • one of seams 707 is depicted as having the general configuration of seam 603 , but may also have the general configuration of seam 604 .
  • any of the various methods discussed above for forming seams 603 and 604 , with or without stitching strand 605 may be utilized to form seams 707 .
  • an article of apparel incorporating textile elements formed from a thermoplastic polymer material may include thermal bonds that join textile elements at various seams.
  • a relatively large percentage of footwear 800 may be formed from thermoplastic polymer materials.
  • textile elements 826 may be at least partially formed from thermoplastic polymer materials.
  • lace 823 is not generally joined to upper 820 through bonding or stitching, lace 823 may also be formed from a thermoplastic polymer material.
  • each of midsole 811 and outsole 812 may be formed from a thermoplastic polymer material.
  • the percentage by mass of footwear 800 that is formed from the thermoplastic polymer materials may range from thirty percent to one-hundred percent. In some configurations, at least sixty percent of a combined mass of sole structure 810 and upper 820 may be from thermoplastic polymer materials. Accordingly, a majority or even all of footwear 400 may be formed from one or more thermoplastic polymer materials.
  • Adhesives are conventionally utilized to join uppers to sole structures and midsoles to outsoles.
  • An advantage of forming various elements of footwear 800 from thermoplastic polymer materials is that a thermal bond may be utilized to join upper 820 to sole structure 810 and midsole 811 to outsole 812 .
  • the recyclability of footwear 800 may also be enhanced.
  • a second configuration of footwear 800 is depicted in FIG. 51 as having many of the features discussed above.
  • three generally linear fused regions 828 extend from a heel area to a forefoot area of footwear 800 .
  • fused regions 828 may impart stretch-resistance. That is, upper 820 may have a tendency to stretch during walking, running, or other ambulatory activities, and fused regions 828 impart greater stretch-resistance along the length of footwear 800 .
  • textile elements 826 may (a) be woven textile 300 , knitted textile 400 , or any other textile that incorporates a thermoplastic polymer material or (b) incorporate strands (e.g., yarn 100 , thread 200 ) that are formed from a thermoplastic polymer material, the strands in fused regions 828 are generally fused to a greater degree than in other areas of footwear 800 .
  • fused regions 828 areas of textile elements 826 are heated and compressed. In addition to fusing strands within textile elements 826 , the heating and compression may also cause fused regions 828 to compress or reduce in thickness. More particularly, processes that form a fused regions 828 may effectively cause thinning in the areas of fused regions 828 . This effect may be seen in FIG. 52 and may occur in other locations where thermal bonding or fusing forms areas similar to fused regions 303 , 304 , 403 , and 404 .
  • upper 820 may be formed to have a thickness of a single layer of textile elements 826
  • upper 820 may also have a thickness of multiple layers.
  • the areas of upper 820 that extend along sides of the foot include textile elements 826 , as well as components 829 and 830 .
  • each side of upper 820 has a layered configuration wherein (a) textile element 826 forms an exterior surface of upper 820 , (b) component 829 forms an interior surface that defines a portion of void 821 , and (c) component 830 is located between textile element 826 and component 829 to form a middle layer.
  • component 829 may absorb or wick water to manage perspiration within footwear 800
  • component 830 may be a compressible polymer foam material that enhances the comfort of footwear 800 .
  • textile element 826 may be thermal bonded to component 830 . If one or both of components 829 and 830 incorporate a thermoplastic polymer material, then components 829 and 830 may also be thermal bonded to each other.
  • the process for joining textile element 826 and components 829 and 830 in a layered configuration may, therefore, be similar to the thermal bonding process discussed above for composite element 500 .
  • a third configuration of footwear 800 is depicted in FIG. 53 as including further examples of fused regions 828 .
  • One of fused regions 828 extends around and is proximal to ankle opening 822 , which may add greater stretch-resistance to the area around ankle opening 822 and assists with securely-retaining the foot within upper 820 .
  • Another fused region 828 is located in the heel region and extends around a rear area of footwear 800 to form a heel counter that resists movement of the heel within upper 820 .
  • a further fused region 828 is located in the forefoot area and adjacent to sole structure 810 , which adds greater durability to the forefoot area.
  • the forefoot area of upper 820 may experience greater abrasive-wear than other portions of upper 820 , and the addition of fused region 828 in the forefoot area may enhance the abrasion-resistance of footwear 800 in the forefoot area.
  • An additional fused region 828 extends around lace apertures 824 , which may enhance the durability and stretch-resistance of areas that receive lace 823 .
  • This fused region 828 also extends downward in various locations to an area that is proximal sole structure 810 in order to enhance the stretch-resistance along the sides of footwear 800 . More particularly, tension in lace 823 may place tension in the sides of upper 820 . By forming fused regions 828 that extend downward along the sides of upper 820 , the stretch in upper 820 may be reduced.
  • a fourth configuration of footwear 400 is depicted in FIG. 54 as including three fused region 828 with shapes of the letters “A,” “B,” and “C.”
  • Fused regions 828 may be utilized to modify various properties of textile elements 826 , including the properties of permeability, durability, and stretch-resistance.
  • Various aesthetic properties may also be modified by forming fused regions 828 , including the transparency, saturation of a color, and contrast in textile elements 826 .
  • fused regions 828 may be utilized to form indicia in areas of footwear 800 . That is, fused regions 828 may be utilized to form a name or logo of a team or company, the name or initials of an individual, or an esthetic pattern, drawing, or element.
  • fused regions 828 may be utilized to form indicia in shirt 700 , other articles of apparel, or any other product incorporating textiles with thermoplastic polymer materials.
  • elements of woven textile 300 or knitted textile 400 may be thermal bonded or otherwise joined to various products to form indicia.
  • elements of woven textile 300 or knitted textile 400 with the shapes of the letters “A,” “B,” and “C” may be thermal bonded to the sides of an article of footwear where the upper is primarily formed from leather, synthetic leather, or any other material.
  • woven textile 300 , knitted textile 400 , or other textiles incorporating a thermoplastic polymer material may be thermal bonded to a variety of other materials, elements these elements may be thermal bonded to a variety of products in order to form indicia.
  • textile elements including a thermoplastic polymer material may be utilized in footwear 800 .
  • Other types of footwear may also incorporate structures that are substantially similar to seams 827 (i.e., seams 603 , 604 ).
  • various structures that are substantially similar to fused regions 828 i.e., fused regions 303 , 304 , 403 , 404
  • other types of footwear may also incorporate structures that are substantially similar to components 829 and 830 (i.e., components 501 , 502 ).
  • Woven textile 300 and knitted textile 400 have a generally planar configuration. Textiles incorporating a thermoplastic polymer material may also exhibit a variety of three-dimensional or otherwise non-planar configurations. As an example, an element of a shaped textile 900 is depicted as having a wavy or undulating configuration in FIG. 55A . Shaped textile 900 may be either of textiles 300 and 400 , for example, as well as any textile that includes strands (e.g., yarn 100 , thread 200 ) incorporating a thermoplastic polymer material. A similar configuration with squared waves in shaped textile 900 is depicted in FIG. 55B .
  • shaped textile 900 may have waves that extend in two directions to impart an egg crate configuration, as depicted in FIG. 55C . Accordingly, shaped textile 900 may be formed to have a variety of three-dimensional or otherwise non-planar configurations.
  • a variety of processes may be utilized to form a three-dimensional configuration in shaped textile 900 .
  • the processes involve forming thermal bonds within shaped textile 900 to impart the non-planar configuration.
  • FIGS. 56A-56C an example of a method is depicted as involving heat press that includes a pair of shaped platens 14 , which each have surfaces that correspond with the resulting three-dimensional aspects of shaped textile 900 .
  • shaped textile 900 is located between shaped platens 14 , as depicted in FIG. 56A . That is, a planar textile element that becomes shaped textile 900 is located within the heat press, which has non-planar surfaces.
  • Shaped platens 14 then translate or otherwise move toward each other in order to contact and compress shaped textile 900 , as depicted in FIG. 56B .
  • heat from one or both of shaped platens 14 is applied to shaped textile 900 so as to soften or melt the thermoplastic polymer material within strands forming shaped textile 900 .
  • shaped textile 900 is heated to at least a glass transition temperature of the thermoplastic polymer material within shaped textile 900 .
  • shaped textile 900 Upon separating shaped platens 14 and permitting shaped textile 900 to cool, as depicted in FIG. 56C , shaped textile 900 exhibits the three-dimensional configuration from the surfaces of shaped platens 14 .
  • shaped textile 900 is molded to have a non-planar configuration, but other shaping or molding processes may be utilized. Although heat may be applied through conduction, radio frequency heating, ultrasonic heating, radiant heating, laser heating, or chemical heating may also be used.
  • a textile incorporating a thermoplastic polymer material may be shaped or molded to exhibit a three-dimensional or non-planar configuration.
  • these features may provide both structural and aesthetic enhancements to the products.
  • the three-dimensional configurations may provide enhanced impact force attenuation and greater permeability by increasing surface area.
  • Woven textile 300 and knitted textile 400 are substantially formed from a thermoplastic polymer material.
  • textile elements 706 of shirt 700 may have the configuration of either of woven textile 300 and knitted textile 400 , for example, a majority or substantially all of shirt 700 may be formed from the thermoplastic polymer material.
  • a relatively large percentage of footwear 800 may also be formed from a thermoplastic polymer material. Unlike many articles of apparel, therefore, the materials within shirt 700 and footwear 800 may be recycled following their useful lives.
  • the thermoplastic polymer material from shirt 700 may be extracted, recycled, and incorporated into another product (e.g., apparel, container, upholstery) as a non-woven textile, a woven textile, a knitted textile, a polymer foam, or a polymer sheet.
  • another product e.g., apparel, container, upholstery
  • thermoplastic polymer material from shirt 700 is incorporated into one or more of another shirt 700 , footwear 800 , or another product.
  • a majority or substantially all of shirt 700 is formed from the thermoplastic polymer material, then a majority or substantially all of the thermoplastic polymer material may be utilized in another product following recycling.
  • thermoplastic polymer material from shirt 700 was initially utilized within one textile, such as woven textile 300
  • the thermoplastic polymer material from shirt 700 may be subsequently utilized in another element of textile, such as knitted textile 400 .
  • the newly-formed shirt 700 and footwear 800 may also be recycled through a similar process. Accordingly, an advantage of forming shirt 700 , footwear 800 , or other products with the various strands and textiles discussed above relates to recyclability.
  • Yarn 100 , thread 200 , woven textile 300 , knitted textile 400 , composite element 500 , seam element 600 , shirt 700 , and footwear 800 all are at least partially formed from a thermoplastic polymer material.
  • Various fused regions may be formed in these elements through thermal bonding processes to modify various properties that include permeability, durability, and stretch-resistance.
  • Various components textiles, polymer sheets, foam layers, strands
  • Seams may be formed to join these elements with thermal bonding processes. Accordingly, the various structures and techniques discussed above combined to form numerous products and impart a variety of properties to the products.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Textile Engineering (AREA)
  • High Energy & Nuclear Physics (AREA)
  • Plasma & Fusion (AREA)
  • Chemical & Material Sciences (AREA)
  • Materials Engineering (AREA)
  • Knitting Of Fabric (AREA)
  • Woven Fabrics (AREA)
  • Yarns And Mechanical Finishing Of Yarns Or Ropes (AREA)
US13/438,554 2012-04-03 2012-04-03 Apparel And Other Products Incorporating A Thermoplastic Polymer Material Abandoned US20130255103A1 (en)

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US13/438,554 US20130255103A1 (en) 2012-04-03 2012-04-03 Apparel And Other Products Incorporating A Thermoplastic Polymer Material
CN201380029220.0A CN104334043A (zh) 2012-04-03 2013-04-02 包含热塑性聚合物材料的服装及其他产品
EP18207862.6A EP3466288B1 (fr) 2012-04-03 2013-04-02 Vêtements contenant une matière polymère thermoplastique
EP13724648.4A EP2833750B1 (fr) 2012-04-03 2013-04-02 Vêtements contenant une matière polymère thermoplastique
PCT/US2013/034901 WO2013151968A2 (fr) 2012-04-03 2013-04-02 Vêtements et autres produits contenant une matière polymère thermoplastique
US15/339,485 US11779071B2 (en) 2012-04-03 2016-10-31 Apparel and other products incorporating a thermoplastic polymer material
US18/353,645 US20240081451A1 (en) 2012-04-03 2023-07-17 Apparel and other products incorporating a thermoplastic polymer material

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US13/438,554 US20130255103A1 (en) 2012-04-03 2012-04-03 Apparel And Other Products Incorporating A Thermoplastic Polymer Material

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US15/339,485 Active US11779071B2 (en) 2012-04-03 2016-10-31 Apparel and other products incorporating a thermoplastic polymer material
US18/353,645 Pending US20240081451A1 (en) 2012-04-03 2023-07-17 Apparel and other products incorporating a thermoplastic polymer material

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US20170042264A1 (en) 2017-02-16
EP2833750A2 (fr) 2015-02-11
EP3466288A1 (fr) 2019-04-10
US20240081451A1 (en) 2024-03-14
EP3466288B1 (fr) 2020-06-17
WO2013151968A2 (fr) 2013-10-10
CN104334043A (zh) 2015-02-04
EP2833750B1 (fr) 2018-12-05
US11779071B2 (en) 2023-10-10
WO2013151968A3 (fr) 2014-01-16

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