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1
US10233279B2
Publication/Patent Number: US10233279B2
Publication date: 2019-03-19
Application number: 13/376,807
Filing date: 2010-06-01
Abstract: The present invention relates to novel aqueous polyurethane dispersions produced using at least two poly(tetramethylene glycol) polyether polyols with different average molar masses and at least two different polyisocyanate components.
2
EP3247826B1
Publication/Patent Number: EP3247826B1
Publication date: 2019-05-01
Application number: 16740668.5
Filing date: 2016-01-20
Inventor: Mason, Vanessa  
3
EP3455267A1
Publication/Patent Number: EP3455267A1
Publication date: 2019-03-20
Application number: 17821290.8
Filing date: 2017-06-29
4
EP3483316A1
Publication/Patent Number: EP3483316A1
Publication date: 2019-05-15
Application number: 18209900.2
Filing date: 2012-11-29
Abstract: A composition comprising 6 to 50 wt % wood pulp fiber and 45 to 93.45 wt % thermoplastic polymer wherein the dilution level for detection in a bag at 40°C is equal to or less than 450 as determined by ASTM E679.
5
EP3498897A1
Publication/Patent Number: EP3498897A1
Publication date: 2019-06-19
Application number: 18211766.3
Filing date: 2012-11-29
Abstract: A composition comprising 10 to 50 weight % wood pulp fiber, 45 to 85 weight % thermoplastic polymer and 0.1 to 5 weight % clear mineral oil having a specific gravity less than water. A composition comprising 65 to 85 wt % wood pulp fiber, 15 to 35 wt % thermoplastic polymer and 0.1 to 5 weight % mineral oil having a specific gravity less than water. The wood pulp fiber can be bleached chemical wood pulp fiber. A composition comprising 10 to 50 weight % wood pulp fiber, 45 to 85 weight % thermoplastic polymer and 0.1 to 5 weight % clear mineral oil having a specific gravity less than water. A composition comprising 65 to 85 wt % wood pulp fiber, 15 to 35 wt % thermoplastic polymer and ...more ...less
6
EP2815009B1
Publication/Patent Number: EP2815009B1
Publication date: 2019-01-16
Application number: 12868656.5
Filing date: 2012-11-29
7
US10201561B2
Publication/Patent Number: US10201561B2
Publication date: 2019-02-12
Application number: 13/266,660
Filing date: 2010-04-30
Abstract: An object of the present invention is to provide an antiviral fiber assembly in which an antiviral agent is retained with chemical stability over a long period of time, and which is gentle to the human body. A further object of the present invention is to provide a fiber assembly with cellulose sulfate that can exhibit sufficient antiviral activity over a long period of time. Further, another object of the present invention is to provide a textile product obtained using such a fiber assembly. The present invention provides a fiber assembly with cellulose sulfate, wherein the hyaluronidase inhibitory activity is 50% or higher; and a process for producing a fiber assembly with cellulose sulfate, including treating a fiber assembly with an aqueous cellulose sulfate solution and drying, then treating the same with a pH buffer solution and drying. An object of the present invention is to provide an antiviral fiber assembly in which an antiviral agent is retained with chemical stability over a long period of time, and which is gentle to the human body. A further object of the present invention is to provide a fiber ...more ...less
8
EP2391749B1
Publication/Patent Number: EP2391749B1
Publication date: 2018-03-28
Application number: 10736552.0
Filing date: 2010-02-02
Assignee: ARKEMA INC.
9
DE202017106911U1
Publication/Patent Number: DE202017106911U1
Publication date: 2018-03-15
Application number: 202017106911
Filing date: 2017-11-14
Inventor:
Abstract: Bekleidungsstoff in einer vorbestimmten geforderten optischen Farbe und mit einem vorbestimmten geforderten Mustereffekt und vorbestimmten physikalischen Stoffeigenschaften, wobei der Bekleidungsstoff entsprechend den folgenden Schritten hergestellt wird:(i) Bereitstellen einer ersten Vielzahl von n Garnen, wobei die Denier-Gesamtzahl von n Garnen einer ersten Denier-Zahl (D) entspricht;(ii) Bereitstellen mindestens einer weiteren Vielzahl von m Garnen, wobei die Denier-Gesamtzahl von m Garnen einer weiteren Denier-Zahl (D) entspricht;(iii) Bilden von mehreren mehrlagigen Garnen, wobei jedes mehrlagige Garn aus mindestens zwei Garnen hergestellt ist, wobei jedes mehrlagige Garn aus einem Garn aus der ersten Vielzahl von n Garnen und aus dem Garn aus einer der weiteren Vielzahlen von m Garnen hergestellt ist und die Denier-Zahlen aller Garne des mehrlagigen Garns gemeinsam die geforderte Garn-Denier-Zahl für ein Strickverfahren bereitstellen; und(iv) Verstricken des mehrlagigen Garns, das aus der ersten Garnvielzahl hergestellt ist, mit der mindestens einen weiteren Garnvielzahl durch ein Strickverfahren, so dass ein mehrlagiger Bekleidungsstoff gebildet wird, wobei jedes Garn aus mehreren Fasern, die aus einem Polymermaterial hergestellt sind, gebildet ist, wobei die Fasern in einem Spinnfärbeverfahren hergestellt und die Fasern während des Spinnfärbeverfahrens gefärbt werden;wobei beim Verstricken des mehrlagigen Garns, das aus der ersten Vielzahl von n Garnen hergestellt ist, mit der mindestens einen weiteren Vielzahl von m Garnen zur Bildung des mehrlagigen Bekleidungsstoffs der Bekleidungsstoff so hergestellt wird, dass er die vorbestimmte geforderte optische Farbe und den vorbestimmten geforderten Mustereffekt ohne optisch sichtbare Veränderungen bei der geforderten optischen Farbe und dem geforderten Mustereffekt aufweist; undwobei die erste Vielzahl von n Garnen und die mindestens eine weitere Vielzahl von m Garnen so ausgewählt sind, dass sie die vorbestimmte optische Farbe und den vorbestimmten Mustereffekt sowie die vorbestimmten physikalischen Stoffeigenschaften bereitstellen. Bekleidungsstoff in einer vorbestimmten geforderten optischen Farbe und mit einem vorbestimmten geforderten Mustereffekt und vorbestimmten physikalischen Stoffeigenschaften, wobei der Bekleidungsstoff entsprechend den folgenden Schritten hergestellt wird:(i) Bereitstellen einer ...more ...less
10
CN107653530A
Publication/Patent Number: CN107653530A
Publication date: 2018-02-02
Application number: 201711009388
Filing date: 2017-10-25
Inventor: Luo, Hongjian  
Abstract: The invention relates to a production technology and production system of superfine regenerated fiber high count yarns. Crude fibers are preprocessed at first, and then the preprocessed crude fibers are subjected to opening, cleaning, coiling, carding, drawing, roving, spinning and winding in sequence. The finally obtained superfine regenerated fiber high count yarns have good handfeel and gentleluster, dyeing is easy, the air permeability is good, comfort is high, and the superfine regenerated fiber high count yarns are suitable for making underwear and high-end light clothing. The invention relates to a production technology and production system of superfine regenerated fiber high count yarns. Crude fibers are preprocessed at first, and then the preprocessed crude fibers are subjected to opening, cleaning, coiling, carding, drawing, roving, spinning ...more ...less
11
SI2890731T1
Publication/Patent Number: SI2890731T1
Publication date: 2018-05-31
Application number: 201430668
Filing date: 2014-01-14
12
DK2391749T3
Publication/Patent Number: DK2391749T3
Publication date: 2018-06-06
Application number: 10736552
Filing date: 2010-02-02
Assignee: ARKEMA INC.
13
CN108149354A
Publication/Patent Number: CN108149354A
Publication date: 2018-06-12
Application number: 201810040465
Filing date: 2018-01-16
Inventor:
Assignee:
Abstract: 本发明涉及种高效纺织工艺,其包括以下步骤:S1:抓棉、S2:开棉、S3:混棉、S4:梳棉、S5:上色、S6:烘干、S7:并条、S8:粗纱、S9:细纱、S10:络筒。本发明步骤简单,操作严密,工序连接性强,生产过程中纤维运动控制良好,得到的产品密度均匀、容量充分、强力高,生产成本低,适于广泛推广应用。 本发明涉及种高效纺织工艺,其包括以下步骤:S1:抓棉、S2:开棉、S3:混棉、S4:梳棉、S5:上色、S6:烘干、S7:并条、S8:粗纱、S9:细纱、S10:络筒。本发明步骤简单,操作严密,工序连接性强,生产过程中纤维运动控制良好,得到的产品密度均匀、容量充分、强力高,生产成本低,适于广泛推广应用。 ...more ...less
14
US10135215B2
Publication/Patent Number: US10135215B2
Publication date: 2018-11-20
Application number: 14/816,001
Filing date: 2015-08-01
Inventor: Winarski, Tyson York  
Abstract: Optical fiber amplifiers are disclosed that utilize optic fibers encapsulated by graphene as the gain medium. Doped fiber optic amplifiers utilize optic fibers that are doped with a rare earth element for the gain medium that is encapsulated by graphene. Raman fiber optic amplifiers utilize an undoped fiber as the gain medium that is encapsulated by graphene. Optical fiber amplifiers are disclosed that utilize optic fibers encapsulated by graphene as the gain medium. Doped fiber optic amplifiers utilize optic fibers that are doped with a rare earth element for the gain medium that is encapsulated by graphene. Raman fiber optic ...more ...less
15
US10094051B1
Publication/Patent Number: US10094051B1
Publication date: 2018-10-09
Application number: 15/992,525
Filing date: 2018-05-30
Abstract: Electrospinning apparatus and method for producing multi-dimensional structures such as one-dimensional continuous yarns, two-dimensional mats and three-dimensional cotton-like fluffy scaffolds is disclosed. Further, electrospinning apparatus and method with single collector geometry for producing multi-dimensional structures and core-sheath yarns are disclosed. Electrospinning apparatus and method for producing multi-dimensional structures such as one-dimensional continuous yarns, two-dimensional mats and three-dimensional cotton-like fluffy scaffolds is disclosed. Further, electrospinning apparatus and method with single collector ...more ...less
16
US9994975B2
Publication/Patent Number: US9994975B2
Publication date: 2018-06-12
Application number: 14/751,069
Filing date: 2015-06-25
Abstract: Electrospinning apparatus and method for producing multi-dimensional structures such as one-dimensional continuous yarns, two-dimensional mats and three-dimensional cotton-like fluffy scaffolds is disclosed. Further, electrospinning apparatus and method with single collector geometry for producing multi-dimensional structures and core-sheath yarns are disclosed. Electrospinning apparatus and method for producing multi-dimensional structures such as one-dimensional continuous yarns, two-dimensional mats and three-dimensional cotton-like fluffy scaffolds is disclosed. Further, electrospinning apparatus and method with single collector ...more ...less
17
EP2815008B1
Publication/Patent Number: EP2815008B1
Publication date: 2018-12-26
Application number: 12868627.6
Filing date: 2012-11-29
18
CN105821663B
Publication/Patent Number: CN105821663B
Publication date: 2018-01-09
Application number: 201610306203
Filing date: 2016-05-10
Inventor: Chen, Lijun  
Abstract: The invention discloses a conductive graphene fiber and a production method and system in order to solve the problem that conductive fibers in the prior art are weak in conductivity. The conductive graphene fiber comprises a linear base body material and a graphene conductive coating wrapping the base body material. The graphene conductive coating is prepared from The invention discloses a conductive graphene fiber and a production method and system in order to solve the problem that conductive fibers in the prior art are weak in conductivity. The conductive graphene fiber comprises a linear base body material and a graphene conductive ...more ...less
19
CN206856149U
Publication/Patent Number: CN206856149U
Publication date: 2018-01-09
Application number: 201720147815
Filing date: 2017-02-20
Inventor: Chen, Yongkun  
Abstract: 本实用新型公开了种银纤维防水透湿四号花面料,包括纳米面料层、银纤维面料层、聚四氟乙烯薄膜和棉料层,所述纳米面料层的底部设有银纤维面料层,所述银纤维面料层的底部设有聚四氟乙烯薄膜,所述聚四氟乙烯薄膜的底部通过热熔胶与棉料层粘接在起,所述银纤维面料层包括银纤维线、碳线、麻线和棉线,所述银纤维线、碳线、麻线和棉线交替沉浮编织,其中,所述银纤维线和棉线垂直方向上交替设置,所述碳线和麻线水平方向交替设置,所述纳米面料层的顶部编织有鲜花图案。本实用新型通过银纤维线的设计,可以利用金属银的特性,比如良好的导电和导热性能,还具有抑制细菌生长的功能,因此本面料具有抑菌和消静电的作用。 本实用新型公开了种银纤维防水透湿四号花面料,包括纳米面料层、银纤维面料层、聚四氟乙烯薄膜和棉料层,所述纳米面料层的底部设有银纤维面料层,所述银纤维面料层的底部设有聚四氟乙烯薄膜,所述聚四氟乙烯薄膜的底部通过热熔胶与棉料层粘接在起,所述银纤维面料层包括银纤维线、碳线、麻线和棉线,所述银纤维线、碳线、麻线和棉线交替沉浮编织,其中,所述银纤维线和棉线垂直方向上交替设置,所述碳线和麻线水平方向交替设置,所述纳米面料层的顶部编织有鲜花图案。本实用新型通过银纤维线的设计,可以利用金属银的特性,比如良好的导电和导热性能,还具有抑制细菌生长的功能,因此本面料具有抑菌和消 ...more ...less
20
CN107675310A
Publication/Patent Number: CN107675310A
Publication date: 2018-02-09
Application number: 201711101623
Filing date: 2017-11-10
Abstract: The invention discloses a spinning technology for pure wool voile. The technology comprises the steps of sliver mixing, combing, six-way gilling, roving, spinning, automatic winding and yarn steaming.The pure wool voile produced through the technology has the advantages that fiber is parallel and straight, evenness is uniform, the spun yarn strength is high, and the end breakage rate is low. The invention discloses a spinning technology for pure wool voile. The technology comprises the steps of sliver mixing, combing, six-way gilling, roving, spinning, automatic winding and yarn steaming.The pure wool voile produced through the technology has the advantages that ...more ...less