CA2228443C - Firefighter's garment - Google Patents

Firefighter's garment Download PDF

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Publication number
CA2228443C
CA2228443C CA002228443A CA2228443A CA2228443C CA 2228443 C CA2228443 C CA 2228443C CA 002228443 A CA002228443 A CA 002228443A CA 2228443 A CA2228443 A CA 2228443A CA 2228443 C CA2228443 C CA 2228443C
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CA
Canada
Prior art keywords
fabric
yarns
flame resistant
spun yarns
filament
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Expired - Lifetime
Application number
CA002228443A
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French (fr)
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CA2228443A1 (en
Inventor
W. Douglas Ellis
Denise N. Statham
Gregory Alexander
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Southern Mills Inc
Original Assignee
Southern Mills Inc
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Filing date
Publication date
Priority claimed from US08/792,294 external-priority patent/US5928971A/en
Application filed by Southern Mills Inc filed Critical Southern Mills Inc
Publication of CA2228443A1 publication Critical patent/CA2228443A1/en
Application granted granted Critical
Publication of CA2228443C publication Critical patent/CA2228443C/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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  • Professional, Industrial, Or Sporting Protective Garments (AREA)

Abstract

A face cloth for a thermal barrier of a firefighter's garment made from a fabric woven from fire resistant yarns. The yarns are woven into a twill pattern with, preferably, filament yarns in the filling direction and spun yarns in the warp direction and a finish is applied to the fabric. The finish is accepted by the fabric and renders the face cloth both wickable and hook-and-loop compatible. The face cloth has a smooth and slick surface and is wickable and hook-and-loop fastener compatible.

Description

FIREFIGHTER'S GARMENT
FIELD OF THE INVENTION
The invention relates generally to a firefighter's garment.
More specifically, the invention relates to the face cloth of a thermal barrier lining placed inside a firefighter's garment that makes the garment more comfortable and fire protectant.
BACKGROUND OF THE INVENTION
For firefighters working on the fireground, the most obvious concern for personal safety is protection against burn injury.
Firefighters' turnout gear, which typically consists of matching coat and pants, is designed primarily to prevent the wearer from sustaining a serious burn. The National Fire Protection Association (NFPA) publishes a minimum performance standard for firefighters' turnout gear. This standard is recognized industry-wide as the overall guideline for identifying the minimum level of performance for turnout gear and the fabrics from which they are constructed. For any gear to be labelled compliant with NFPA 1971, the fabrics in that gear must be subjected to many stringent tests, most related to flammability.
NFPA compliant turnout gear or garments are comprised of three layers: an outer shell, an intermediate moisture barrier, and a thermal barrier lining. The outer shell is usually a woven fabric made from flame resistant fibers such as an aramid such as those sold under the trademarks NOMEX~' and KEVLAR~ by Dupont. . The outer shell is considered a firefighter's first line of defense.
Not only should it resist flame, but it needs to be tough and durable so as not to be torn, abraded, or snagged during normal f.irefighting activities.
The moi~~ture barrier, while also flame resistant, is present to ~:eep water from coming in and saturating the turnout gear.
E:KCess moisture entering the gear from the outside would laden the firefighter with extra weight and increase his or her load. A
s~uit:able moisture barrier is a layer of GORE-TEX~ material on a s~ub~~trate of NOMEX~.
The thermal barrier is flame resistant and offers the bulk of t:he thermal protection afforded by the ensemble. A traditional thermal barrier is a batting made of a nonwoven fabric of flame resistant fibers quilted to a lightweight woven face cloth also made of flame resistant fibers. The batting may be either a single layer of neea.le-punch nonwoven fabric or multiple layers of spun lace nonwoven. fabric. The face cloth is commonly quilted to the batting in a cross-over or chicken wire pattern. The end product.
is ~i relatively thick, inflexible fabric that will not stretch due to t:he limitation placed on it by the face cloth. The quilted t:hez-mal barrier is the innermost layer of the firefighter's garment a:nd the face cloth may be next to the firefighter's skin if he or size is not wearing a station uniform or is wearing a station uniform with short sleeves.
The com)'~ination of the batting and the face cloth commonly is called the thermal barrier lining and it typically attaches to the inside of the garment by snaps so that it is removable to be easily washed or otherwise cleaned. Often times the lining also attaches to t:he garment by means of areas of hook-and-loop fasteners such as gnat: sold under the trademark VELCRO~. The garment itself often is s~°a~_ed by means of hook-and-loop fasteners rather than, for example, a zipper.
A problem with many linings currently sold and used is that t:he face cloth of the lining is rough and when the firefighter dons t:he jacket or pants the firefighter's street clothes or station unit=orm bunch. up under the firefighter's garment. A face cloth hav~_ng a smooth, slick surface can prevent this from happening because the cloth will slide over the station uniform and not cause it t=o bunch up. A rough face cloth also creates friction with the station uniform underneath it, making it even more difficult for the firefighter to move inside his or her gear. This increased ~0 exer_tion could lead to heat stress more quickly and severely.
One currently available face cloth is made from a fabric of all spun yarns of 1000 poly(m-phenyleneisophthalamide). The yarns are woven into a fabric having a "pajama check" pattern. An aqueous fini~>h is applied to the fabric which renders the fabric ~:5 wiclcable. This finish includes an ethoxylated ester, a binder, and an inorganic salt catalyst and is applied by a pad-nip-tenter system. This face cloth has a rough texture and often leads to the station uniform bunching up under the garment. However, this is one of the least costly types of face cloth.
Another fabric currently used as a face cloth is also 1000 poly(m-pheny7_eneisophthalamide) but it is a twill weave of spun ware yarns and filament filling yarns. _ The twill weave results :in mor~= filament. yarns than spun yarns on one surface of the face cloth. Filament yarns are smoother than spun yarns and so this face cloth has one surface that is substantially slicker and 7_0 smo~~ther than the all spun yarn cloth described above. However, this spun/fi7_ament cloth has the problem that it is easily "picked"
by the j-hoo~a of the hook-and-loop fasteners and by other relatively sharp items. The face cloth will become frayed and begin to pre:~ent an unaesthetic appearance.
7_5 Still another type of face cloth currently on the market is made from 1000 poly(m-phenyleneisophthalamide) and is a plain weave of all filament yarns which are relatively expensive. This fabric made of all filament yarns has the problem that the warp and filling yarns are slick and slide against one another. Thus, a?0 Locations where the warp and filling yarns intersect are not particularly stable. This instability is passed on to the seam ~~tructures which easily deform when stressed. Also the fabric has o. propensity to ravel at cut edges, a propensity which is aggravated during the cutting and sewing operations required to 25 render the fabric into a useful face cloth. To solve this problem, all filament fabric requires a backcoating, usually a polyurethane, that: imparts stability to the fabric by binding the yarns to one a:not:her. A side effect of the backcoating is that the fabric is made water repellent. This is a disadvantage for a face cloth because any moisture deposited on the face cloth from sweat, for example, remains on the surface of the cloth facing the firefighter a:nd is not wicked into the interior of the face cloth. This can result in discomfort and, perhaps, scalding of the firefighter's skin. This face cloth does not, however, have the problem of being ";pic:ked" by hook-and-loop fasteners, probably because of the bacl~;coating.
Spun yarns are manufactured from fibers having a fairly short length, about one and one-half (1-1/2) to two and one-half (2-1/2) inches. The fibers are spun and twisted tightly together into a yarn. Filament yarns are made from extruded filaments. A filament yarn can be only one filament but typically has multiple filaments gent:ly twisted into a multifilament yarn. Some filament yarns have a s7.ight twist but not as much as spun yarns. Filament yarns are smoother than. spun yarns and have a disadvantage in that they will not readily accept a finish or binder applied to a fabric made t:hez:efrom. It. is believed that finish chemicals do not actually penetrate the filaments but rather reside between individual fil~~ments. S~~un yarns have a greater surface area and more interstices creating more places for finish to reside.
It is apparent from the above discussion that there is a need c5 for a face cloth which combines a slick and smooth surface with hook-and-loo~> fastener compatibility and moisture wickability.
S'U1~AR,Y OF T8E INVENTION
The invention in one aspect pertains to a fabric suitable for use as a face cloth of a thermal barrier in a firefighter's turn-out garment, having a face side that faces the firefighter comprising, a plurality of filament yarns and a plurality of spun yarns, woven such that more filament yarns than spun yarns are on the face side of the weave, and a finish applied to the fabric which renders the face side of the fabric wickable and resistant to picking.
Another broad aspect of the invention provides a method of making a fabric suitable for use as a face cloth of a barrier in a firefighter's turnout garment, having a face side and a back side comprising the steps of forming a weave of a plurality of filament yarns and a plurality of spun yarns wherein more filament yarns than spun yarns are on the face side of the weave, and applying a finish to the fabric which renders the face side of the fabric wickable and resistant to picking.
More particularly the present invention includes a face cloth for a thermal barrier lining of a firefighter's garment made from a fire resistant fabric of, preferably, 100% poly(m-phenyleneisophthalamide) yarns with, preferably, filament yarns in the filling direction and spun yarns in the warp direction. The yarns are woven into a twill pattern and a finish is applied to the fabric. The finish is similar to that previously used with the all spun yarn, pajama check face cloth. Surprisingly, the finish is accepted by the face side of the fabric of the.present invention even though the face side of the fabric comprises mostly filament yarns. The finish renders the face cloth both wickable and hook-and-loop compatible.
The face cloth is an improvement over a face cloth made from an all filament yarn fabric because it is not water repellent and it is less costly due to the presence of spun yarns. The face cloth is an improvement over a face cloth made from an all spun yarn fabric because it has a smooth and slick surface and can be easily donned by the wearer without the station uniform bunching up. The face cloth is an improvement over the prior art combination filament yarn and spun yarn face cloth because it is wickable. The face cloth also is hook-and-loop fastener compatible so it is not picked by the hooks.

The invention includes also a lining for a firefighter's garment and an improved firefighter's garment made with a face clot=h according to the present invention.
It was discovered during use of the prior art combination fil<~ment yarn/spun yarn face cloth described above that the surface of 'the cloth was "picked" when it contacted the j-hooks of hook and-loop fast=eners. It was further discovered that this "picking"
was attributable for the most part to the filament yarns and it was the~~rized that this is because the multiple filaments of the .LO filament yarns do not stay down securely on the yarn surface.
During manufacture of a filament yarn, the multiple filaments are bun~~led and only slightly twisted together so that the filaments are not held together or held down tightly. In addition, the filaments are subject to static buildup because they do not have very high moisture content. The static buildup causes the individual filaments to rise off the yarn and the fabric, rendering them vulnerable to being "picked" by the j-hooks of the hook-and-loop fasteners.
This problem of filament fibers being "picked" is solved by treating the.fabric with a finish. The finish acts to bind the f=fibers. The bound fibers are held close to the surface and are therefore inaccessible to the j-hooks of the fasteners.
Surprisingly, the same finish used in the past to render a i_abric made from all-spun yarn wickable functions to make the (filament yarn/spun yarn fabric hook-and-loop compatible. The application of the finish to the fabric has another advantage in thai= it renders the fabric wickable due to its action on the spun yarns. The spun yarns enhance the take-up of finish rendering the fabric more wickable.
BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 :illustrates the 2 x 1 twill weave of one embodiment of the face clot=h of the present invention.
Fig. 2 is a partial cut-away view of the thermal barrier lining of the present invention.
J_0 Fig. 3 is a partial cut-away view of a firefighter's garment with the the==mal barrier lining in place.
Fig. 4 is an exploded view showing the layers of the garment ~;ho~wn in Fig. 3.
:L 5 DE;TAILED DESCRIPTION OF A PREFERRED EI~UDIMENT
A face cloth 10 of the present invention is made from a fabric woven from filament yarns 12 and spun yarns 14. In particular, the fabric is preferably a 2 x 1 left hand twill weave as shown in Fig.
7., with filament yarns 12 extending in the filling direction and ~0 :spun yarns 14 extending in the warp direction. The face side of t=he fabric is shown in Fig. 1. Of course, the fabric could have filament yarns in the warp direction and spun yarns in the filling direction. Also, the yarns could be woven into a variety of twill patterns or into a satin or sateen weave. The important aspect of 25 1=he weave is that more filament yarns than spun yarns are exposed on one side of the fabric, which is used as the face side.
The filament yarns are preferably made of 1000 poly(m-plzenyleneisophthalamide) (NOMEX~) but may be made of another flame resistant material such as, for example, other aramids, flame resistant polynosic rayon, flame resistant cotton, flame resistant polyester, polybenzimidazole, polyvinyl alcohol, polytetraflucroethylene, flame resistant wool, polyvinyl c:hloride), pclyetheretherketone, polyetherimide, polyethersulfone, polychal, polyimide, aliphatic polyamide, polyimide-amide, flame resistant polyolefin, polybenzoxazole, flame resistant acetone, carbon, modoc:rylic, melamine, glass, and mixtures thereof.
The fil~~ment yarns for the prepared embodiment are 200/100 den~_er (100 2-denier filaments) with about 59 ~ 1 picks per inch.
It ._s expected that the filament yarn size could range between 50 and 400 denier which would result in about 40 to 70 picks per inch.
The spun yarns are preferably 30/2 cotton count 1000 poly(m-phenyleneiso~>hthalamide) spun from fibers having a staple length ranging from about 1.5 - 2.5 inches and can be woven into a fabric hav_Lng about 49 ~ 1 ends per inch. The spun yarn could be made of the same materials as set forth above for the filament yarn. The ~:0 spun yarns could range between 20/2 to 50/2, have staple fiber lengths from about 1.5 to 2.5 inches, and the resulting fabric cou_Ld have from about 40 to 100 ends per inch.
The fabric preferably includes approximately 50o filament yarns and 50as spun yarns, but would most likely have adequate per:Eormance characteristics with from about 30 to 70o filament yarns, with t:he balance spun yarns.
The fabric prepared as above has a weight of 4.1 ounce per square yard ~;oz/yd2). Preferably the fabric has a weight from about 2.5 oz%yd2 to 5.0 oz/ydz. A heavier fabric would be more cosily with no added benefit and a lighter weight fabric would have poor durability and too open a weave.
By virtue of use of the twill weave more of the filament yarns than spun yarns are on the outer or face side 16 of the fabric, tha~~ is on the surface that is towards the firefighter when the fab=ric is mace into a face cloth of a lining. Thus, the cloth is 7_0 smooth and s7_ick on the surface facing the firefighter and the problem of the station uniform bunching up underneath the garment and generating friction with the garment is overcome. This fabric, furthermore, is not as unstable as an untreated 100% filament fabric or wager repellent as is a backcoated 1000 filament fabric.
7_5 The fabric prepared according to the above may be dyed before finishing by methods known in the art.
An aqueous finish composition is applied to the fabric that inc.Ludes up t:o l0o ethoxylated ester, up to loo melamine, and an inorganic sa?_t catalyst. The finish is applied by padding on the a?0 fin.ish solut__on using a pad-nip-tenter system at about 350-400°F.
In ether words, the finish is padded onto the fabric, and a nipping action removes excess solution from the fabric. The fabric is then passed throucLh a tenter which heats the fabric at a temperature ran~~ing from about 350-400°F so as to dry and cure the finish.
a?5 The ethoxylated ester acts as a wicking agent. The resin fun,~tions as a binder and improves the durability of the wicking l0 agent and imp>arts a surface characteristic to minimize picking.
Other possible wicking agents include soil release chemicals, non-ionic based ~;urfactants and sulfonated wetting agents. Other chemicals that could be used to provide durability and binding characteristics include dimethyldihydroxyethyleneurea (DMDHEU), modified DMDHEU, polyethylene based. softeners, and non-formaldehyde basE~d binders .
To form a thermal barrier lining 11, shown in Fig. 2, the dyed and finished face cloth 10 is quilted to a batting 18 made from 7.0 flame resistant fibers. Preferably, the batting used for the pre:~ent lining 11 is one of two types. A single layer of an aramid needle-punch fabric can be used. Alternatively, a batting made of layers of spun-lace aramid fabric can be used. The batting can also be made of other types of flame resistant materials. The 7.5 qui:Lting can be any type that will hold the batting stable underneath the face cloth, such as "chicken wire" quilting 20 as shown in Fig. 2. The quilted fabric is then cut and sewn into a thermal barrier lining 11. In some cases the moisture barrier 38 m.ay be stitched to the lining around the edges of both. For 20 example, a pp_ping may be applied around the edges of the moisture barrier and t:he lining.
A firef:ighter's garment 22, shown in Fig. 3, can be fashioned inc~~rporatind the lining 11 of the present invention. The garment is shown as a jacket but it could also be pants, etc. The garment a?5 includes a body portion 24, sleeves 26, 28 and collar 30. The body portion includes a front closure including a flap 32 and strip 34.

The hooks of hook-and-loop fasteners are attached to the underside of i~he flap a.nd the loops of the hook-and-loop fasteners are attached to the outer surface of the strip 34.
The outer layer of garment 22 is shell 36 which is of a type which is standard in the art. A moisture barrier 38 is incorporated between the shell and the thermal barrier 11. The moisture barrier also is of a type which is standard in the art.
Fig. 4 illustrates the layers of the garment. The face cloth .Ls quilted to the batting 18 to form the lining. The lining 11 1.0 is 1_hen attached to the shell 36 and the moisture barrier 38 is sandwiched therebetween.
The for~sgoing description has been presented for purposes of illustration and description. It is not intended to be exhaustive o:r to limit the invention to the precise forms 7.5 dis~~losed. Obvious modifications or variations are possible in lig:zt of the above teachings. The embodiment or embodiments dis~~ussed were chosen and described to provide the best illustration of the principles of the invention and its practical application to thereby enable one of ordinary skill in the art to 2.0 utilize the invention in various embodiments and with various modifications as are suited to the particular use contemplated.
A.11 such modifications and variations are within the scope of the invention as determined by the appended claims when interpreted in accordance with the breadth to which they are fairly and 25 legally entitled.

Claims (22)

THE CLAIMS

What is claimed is:
1. A fabric suitable for use as a face cloth of a thermal barrier in a firefighter's turn-out garment, having a face side that faces the firefighter, comprising:
a plurality of filament yarns and a plurality of spun yarns, woven such that more filament yarns than spun yarns are on the face side of the weave; and a finish applied to the fabric which renders the face side of the fabric wickable and resistant to picking.
2. The fabric of claim 1, wherein said filament yarns and said spun yarns are woven into a twill pattern, a satin weave or a sateen weave.
3. The fabric of claim 1, wherein said filament yarns and said spun yarns are woven into a 2 × 1 left hand twill weave, with said filament yarns in the filling direction and said spun yarns in the warp direction.
4. The fabric of claim 1, wherein said filament yarns comprise a flame resistant material.
5. The fabric of claim 1, wherein said filament yarns are made of a flame resistant material selected from the group consisting of aramids, flame resistant polynosic rayon, flame resistant cotton, flame resistant polyester, polybenzimidazole, polyvinyl alcohol, polytetrafluoroethylene, flame resistant wool, poly(vinyl chloride), polyetheretherketone, polyetherimide, polyethersulfone, polychal, polyimide, aliphatic polyamide, polyimide-amide, flame resistant polyolefin, polybenzoxazole, flame resistant acetone, carbon, modocrylic, melamine, glass and mixtures thereof.
6. The fabric of claim 1, wherein said filament yarns comprise poly(m-phenyleneisophthalamide).
7. The fabric of claim 1, wherein said filament yarn size ranges between 50 and 400 denier resulting in 40 to 70 picks per inch.
8. The fabric of claim 1, wherein said filament yarns are 200/100 denier with about 59 ~ 1 picks per inch.
9. The fabric of claim 1, wherein said spun yarns comprise a flame resistant material.
10. The fabric of claim 1, wherein said spun yarns are made of a flame resistant material selected from the group consisting of aramids, flame resistant polynosic rayon, flame resistant cotton, flame resistant polyester, polybenzimidazole, polyvinyl alcohol, polytetrafluoroethylene, flame resistant wool, poly(vinyl chloride), polyetheretherketone, polyetherimide, polyethersulfone, polychal, polyimide, aliphatic polyamide, polyimide-amide, flame resistant polyolefin, polybenzoxazole, flame resistant acetone, carbon, modocrylic, melamine, glass and mixtures thereof.
11. The fabric of claim 1, wherein said spun yarns comprise poly(m-phenyleneisophthalamide).
12. The fabric of claim 1, wherein said spun yarns range from 20/2 to 50/2 cotton count, have staple fiber lengths from 1.5 to 2.5 inches, and have from 40 to 100 ends per inch.
13. The fabric of claim 1, wherein said spun yarns are 30/2 cotton count made from fibers having a length ranging from 1.5 to 2.5 inches and can be woven into a fabric having 49~1 ends per inch.
14. The fabric of claim 1, comprising from 30 to 70% filament yarns, with the balance spun yarns.
15. The fabric of claim 1, comprising 50% filament yarns and 50% spun yarns.
15 26. The fabric of claim 1, wherein said finish comprises a solution comprising up to 10% ethoxylated ester, up to 10%
melamine, and an inorganic salt catalyst.
17. The fabric of claim 16, wherein said fabric is characterized by having said finish applied by padding on said finish solution using a pad-nip-tenter system at about 350-400°F.
18. A method of making a fabric suitable for use as a face cloth of a barrier in a firefighter's, turnout garment, having a face side and a back side, comprising the steps of:
forming a weave of a plurality of filament yarns and a plurality of spun yarns, wherein more filament yarns than spun yarns are on the face side of the weave; and applying a finish to the fabric which renders the face side of the fabric wickable and resistant to picking.
19. The method of claim 18, wherein said weave is a 2 × 1 left hand twill weave, with said filament yarns in the filling direction and said spun yarns in the warp direction, said filament yarns are 200/100 denier poly(m-phenyleneisophthalamide), said spun yarns are 30/2 denier cotton count poly(m-phenyleneisophthalamide) made from fibers having a length ranging from 1.5 to 2.5 inches, and said fabric comprises about 50% filament yarns and 50% spun yarns, and wherein said finish comprises a solution comprising up to 10% ethoxylated ester, up to 10% melamine, and an inorganic salt catalyst.
20. A thermal barrier in a firefighter's turnout garment, comprising a face cloth made of fabric fastened to a flame resistant batting, said fabric comprising:
a plurality of filament yarns and a plurality of spun yarns, woven such that more filament yarns than spun yarns are on the face side of the weave; and a finish applied to the fabric which renders the face side of the fabric wickable and resistant to picking.
21. A layered firefighter's turnout garment, comprising:
an outer layer comprising a shell made of flame resistant fibers;
an intermediate layer formed of moisture barrier material;
and a thermal barrier made of a face cloth of fabric quilted to a batting made from flame resistant fibers, said fabric comprising:
a plurality of filament yarns and a plurality of spun yarns, woven such that more filament yarns than spun yarns are on the face side of the weave; and a. finish applied to the fabric which renders the face side of the fabric wickable and resistant to picking.
22. A layered firefighter's turnout garment, comprising:
an outer layer comprising a shell made of flame resistant fibers;
an intermediate layer formed of moisture barrier material;
and a thermal barrier made of a face cloth quilted to a batting, wherein said face cloth is made from a fabric that is a 2 × 1 left hand twill weave, with filament yarns in the filling direction and spun yarns in the warp direction, said filament yarns being 200/100 denier poly(m-phenyleneisophthalamide), said spun yarns being 30/2 denier cotton count poly(m-phenyleneisophthalamide) made from fibers having a length ranging from 1.5 to 2.5 inches, and said fabric comprising 50% filament yarns and 50% spun yarns, and wherein a finish is applied to said fabric, said finish comprising a solution comprising up to 10% ethoxylated ester, up to 10% melamine, and an inorganic salt catalyst.
CA002228443A 1997-01-31 1998-01-30 Firefighter's garment Expired - Lifetime CA2228443C (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US08/792,294 1997-01-31
US08/792,294 US5928971A (en) 1996-02-01 1997-01-31 Firefighter's garment

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CA2228443A1 CA2228443A1 (en) 1998-07-31
CA2228443C true CA2228443C (en) 2005-10-18

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104389083A (en) * 2014-12-12 2015-03-04 常熟市碧溪新区吴市卓艺家纺厂 Cold-resisting and sun-proof clothes fabric
WO2018150165A1 (en) * 2017-02-17 2018-08-23 Arville Textiles Limited Fire resistant textile

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104389083A (en) * 2014-12-12 2015-03-04 常熟市碧溪新区吴市卓艺家纺厂 Cold-resisting and sun-proof clothes fabric
WO2018150165A1 (en) * 2017-02-17 2018-08-23 Arville Textiles Limited Fire resistant textile
AU2018220789B2 (en) * 2017-02-17 2019-10-31 Arville Textiles Limited Fire resistant textile

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