TH65056B - Non-woven fabric with high tenacity - Google Patents

Abstract

DC60 (19/07/47) This invention provides a nonwoven fabric that is laminated with a high toughness spunbond. where unknitted fabrics are laminated fabrics formed by merging through compression bonding A stacked non-woven fabric structure consisting of a synthetic microfiber layer. Top and bottom thermoplastics with a fiber diameter of 7 microns or greater than 20 microns, and an intermediate layer consisting of a fine-lined thermoplastic synthetic fiber layer. The fiber center is 5 microns or less and remains between the top and bottom layers. non-woven fabric is laminated with a mixed structural layer where part of the fine fibers is at least protruded into One face of a microfiber layer with a projection index of 0.36 or greater to bond, surround or cross with the microfiber. base weight of 10 g or more, 250 g/m2, and a total mass density of 0.20 g/cm3 or more. Various filtering and barrier properties that can endure as represented by the fine fiber layers that form non-woven fabric structure And that has a tensile strength much better than non-woven spunbond fabrics.

Claims (1)

Disclaimer (all) which will not appear on the advertisement page. : ------ 17/10/2017 ------ (OCR) Page 1 of 2 pages Disclaimer 1. A non-woven fabric with high tenacity, where the non-woven fabric is the fabric that Was laminated that was formed by Together as one Through the formation of a compressive bond Three stacked layers consisting of a fibrous layer. Small, top and bottom thermoplastic syntheses with a fiber diameter of 7 (formulas) m or more, up to 20 (formulas) m, and at least one intermediate layer containing at least one fiber layer. Fine, synthetic, thermoplastic with a fiber diameter of 5 (formula) m or less.Fine fiber-forming thermoplastic resins are mainly composed of polyesters or copolymers. Of polyester or a mixture of polyester And copolymers Which has a slurry viscosity (formula) sp / c ranging from 0.2 to 0.8 or Polyamide resin Or a copolymer of polyamide resin Or a mixture of polyamide Resins and copolymers The viscosity, relative solution (formula) rel, from 1.8 to 2.7. A mixed structural layer in which part of the fine fibers forming an interstitial layer is protruded. Go in at least one front of the filament layer with a protrusion index of 0.36 or more to bond, surround, or cross to the filament. Basic weight since 10 g or more to 250 g / m 2 and a total density of 0.20 g / cm3 or more 2. A non-woven fabric with high tenacity according to claim 1, where fine fibers have a Fiber center 3 (formula) m or less 3. A non-woven fabric with high tenacity according to claim 1 or 2, where thermoplastic resin Filament-forming plastics are composed mainly of polyester or copolymer of polyester or polyester mixtures. And copolymers And thermoplastic resins that form The fine fibers are mainly composed of a polyester or copolymer of a polyester or a mixture of polyesters. And copolymer 4. Non-woven fabric with high toughness according to claim 1 or 2, where thermoplastic resin Filament-forming plastics are composed mainly of polyamide resins or copolymer of polyamide resins or polyamide resin mixtures. And copolymers And thermoplastic resins that The formation of fine fibers is mainly composed of polyamide resin or polyamide resin copolymer or a mixture of polyamide resin. 5. A method for producing a high tenacity nonwoven fabric according to claim 1, which consists of one or more filament spun layers in at least one layer out of polyester. Turquoise on the transmission belt Blowing to melt fine fibers with a crystallinity ranging from 15% or more to 40% or less out of a viscous polyester resin (formula) sp / c from 0.2 to 0.8 in at least one. Laying on the filament layer 2 p. 2 of 2 p. Putting the filament which forms out of polyester resin in at least one layer over the fine fiber layer and the integration of the fiber layer that Were stacked by forming a thermally compressive bond with Embossing rollers or smooth rollers at a thermally compressed bonding temperature of 10 to 80? Zta than the melting point of a filament at a line pressure from 100 to 1000 N / cm. Knit with high tenacity according to claim 1, consisting of a filament spinning layer in at least one layer out of polyamide resin on the transmission belt. Blowing to melt fine fibers with a crystallinity of 15% or more to 40%, or Least out of the relative solution viscous polyamide (formula) rel from 1.8 to 2.7 in at least one layer on the filamentous fibers. The insertion of micro-fibers forming polyamide resins in at least one layer over the fine fiber layer and the integration of the fibers that are stacked by thermally extruded bonding. Embossing rollers or smooth rollers at thermally compressive bonding temperatures from 10 to 80 ° C than filament melting point at strands pressure from 100 to 1000 N / cm -------- ---- 1. Non-woven fabric with high tenacity Where non-woven fabrics are laminated fabrics formed by joining together through compression bonding. Three layers are stacked, which consists of layers. Fiber Synthetic top and bottom thermoplastic type With a fiber diameter of 7 mum or more than 20 mu m and at least one intermediate layer containing At least a layer of fine fibers Synthetic thermoplastic type With a fiber diameter of 5 mu m or less Non-woven fabric Is laminated with structural layers mixed together Where part of the fine fiber forms an interstitial layer Being protruding into at least one front of the fiber layer Fibers with a protrusion index of 0.36 or greater with boundary or cross-bonded fibers are small fibers. Basic weight ranging from 10 g or more to 250 g / m 2 and gross density 0.20 g / cm3 or more 2. High-tenacity nonwoven fabric according to claim 1. Where fine fibers have a fiber diameter of 3 mu m or less 3. a non-woven fabric with high tenacity according to Clause 1 to 2. Where the non-woven fabric has a structure where a number of fine fibers are collected in a layer Protruding into the fiber layer Small to form a boundary around or cross with a small fiber. 4. Non-woven fabric with high toughness according to one of the claims 1 to 3. Where non-woven fabrics have Amount of fine fibers 50% by weight or less 5. A non-woven fabric with high tenacity as per claim 1 to 4. Where the resin type The thermoplastic that forms The filament form is a small, continuous filament composed mainly of polyester or copolymer of polyester. Or a mixture of Po Lesters and copolymers and thermoplastic resins that Formation of fine fibers, composed mainly of polyester. Terry or copolymer of polyester or a mixture of polyester and copolymer 6. Non-woven fabric with high toughness according to the wrist. Clause 5 where fiber-forming polyester resin Fine, viscosity, eta, sp / C from 0.2 to 0.8 7. Non-woven fabric with high toughness according to one of Claims 1 to 4. Where the resin type The thermoplastic that forms The form of a continuous filament is composed of polyA. Mide resins or co-polymers of polyamide resins Or a mix of things Polyamides and copolymers and thermoplastic resins that Forming fine fibers, mainly composed of polyamide resin or Copolymer of Polyamide resin Or a mixture of polyamide resins and polymers 8. Non-woven fabrics with high toughness according to claim 7 where polyamide that forms fine fibers Melting blow Viscosity, relative slurry, eta, ranging from 1.8 to 2.7 9. A method for producing highly viscous nonwoven fabric which consists of a process of Spinning off the fibers in at least one layer From thermo-plastic synchro resin on the transmission belt Blowing to melt fine fibers with a crystallinity of 15% or more to 40% or less out of the synthetic resin. Thermoplastic type in one or more layers On the filament, the filament is added to the synthetic resin. Thermoplastic types in one or more layers on the fine fiber layer and the inclusion of the fiber layer that is stacked by bond formation. With heat compression Embossing roller or smooth roller that The thermo-compressive bonding temperature is 10 to 80 ํ lower than the melting point of the smaller fibers. The line pressure from 100 to 1,000 N / cm 1 0. Method for producing high toughness nonwoven fabric according to Clause 9 where the filament is Churned out of polyester At least one layer of zin on a fine fiber transmission belt with a crystallinity of 15% or more to 40% or less. Blow off the viscous polyester resin sp / C from 0.2 to 0.8 by blowing molten in one or more layers on the filament and the lint-forming fibers. The polyester resin figure is placed on a fine fiber layer in at least one layer 1. 1. Method for producing non-woven fabrics with high toughness according to Clause 9, where small fibers are Churned out of polyamide resin in at least one layer on a belt.Fine fibers are blown from viscous polyamide resins, eta rel from 1.8 to 2.7 by blowing molten in At least one layer On fine fibers and microfibers forming out of polyamide resins, they are placed on at least one fine fiber layer.