Abstract:
A pellet made from paper particulate extruded and cut into pellets, the pellet comprising an elongated form having opposite flattened surfaces separated by a pellet thickness. Also a process for producing paper particulate pellets comprising: extruding processed paper particulate into pellets having an elongated form; and flattening the extruded paper particulate such that the pellets have opposite flattened surfaces.
Abstract:
Fire resistant garments are disclosed made from a fabric containing a fiber blend. The fiber blend contains meta-aramid fibers, fire resistant cellulose fibers, non-aromatic polyamide fibers, and optionally para-aramid fibers. The non-aromatic polyamide fibers are present in an amount sufficient to dramatically improve the abrasion resistance of the fabric without adversely interfering with the flame resistant properties. In addition to abrasion resistance, the particular blend of fibers has also been found to dramatically improve or increase various other properties. In one embodiment, the fabric is made with a herringbone weave which has been found to unexpectedly improve tear properties and porosity.
Abstract:
Disclosed is a spun yarn for a fiber-reinforced plastic, which is composed of blended yarns (3a, 3b) of a natural plant fiber and a synthetic fiber. The synthetic fiber is a thermoplastic synthetic fiber capable of serving as a matrix resin in a FRP. Also disclosed is an intermediate for a fiber-reinforced plastic that is a woven fabric, a knitted fabric, a multiaxial warp knitted fabric or a braided fabric, formed of the aforementioned spun yarn for a fiber-reinforced plastic. Also disclosed is a fiber-reinforced plastic molded article that is obtained by heating and press-molding the intermediate for a fiber-reinforced plastic at a mold temperature equal to or higher than the melting point of the synthetic fiber, or by aligning the spun yarn for a fiber-reinforced plastic in at least one direction, heating and press-molding the same at a mold temperature equal to or higher than the melting point of the synthetic fiber. Thus, the spun yarn for a fiber-reinforced plastic that exhibits superior integrity between the natural plant fiber and the synthetic fiber and that also a good moldability can be obtained at a low cost. And furthermore, the intermediate and the fiber-reinforced plastic molded article using the same can be provided.
Abstract:
Fire resistant garments are disclosed made from a fabric containing a fiber blend. The fiber blend contains meta-aramid fibers, fire resistant cellulose fibers, non-aromatic polyamide fibers, and optionally para-aramid fibers. The non-aromatic polyamide fibers are present in an amount sufficient to dramatically improve the abrasion resistance of the fabric without adversely interfering with the flame resistant properties. In addition to abrasion resistance, the particular blend of fibers has also been found to dramatically improve or increase various other properties. In one embodiment, the fabric is made with a herringbone weave which has been found to unexpectedly improve tear properties and porosity.
Abstract:
Fire resistant garments are disclosed made from a fabric containing a fiber blend. The fiber blend contains meta-aramid fibers, fire resistant cellulose fibers, non-aromatic polyamide fibers, and optionally para-aramid fibers. The non-aromatic polyamide fibers are present in an amount sufficient to dramatically improve the abrasion resistance of the fabric without adversely interfering with the flame resistant properties. In addition to abrasion resistance, the particular blend of fibers has also been found to dramatically improve or increase various other properties. In one embodiment, the fabric is made with a herringbone weave which has been found to unexpectedly improve tear properties and porosity.
Abstract:
Textiles are provided that include fibrous cellulosic materials having an α-cellulose content of less than about 93%, the fibrous materials being spun, woven, knitted, or entangled. The fibrous cellulosic materials can be irradiated with a dose of ionizing radiation that is sufficient to increase the molecular weight of the cellulosic materials without causing significant depolymerization of the cellulosic materials. Methods of treating textiles that include irradiating the textiles are also provided.
Abstract:
To provide a fabric and clothing having a low irritation to patients with atopic dermatitis with high productivity. The fabric is produced as a fabric for patients with atopic dermatitis, which is contactable with an affected area of patients with atopic dermatitis and comprises an ethylene-vinyl alcohol (EVOH)-series fiber comprising an ethylene-vinyl alcohol-series copolymer having an ethylene content of 25 to 70% by mole, in which the surface of the EVOH-series fiber is occupied by the ethylene-vinyl alcohol-series copolymer in a proportion of not less than 70%, wherein the hydroxyl group amount of the EVOH-series fiber surface is 20 to 70% by mole, the Young's modulus of the EVOH-series fiber is not more than 60 cN/dtex, and the single fiber fineness of the EVOH-series fiber is not more than 5 dtex. The EVOH-series fiber may be a sheath-core structure conjugated fiber comprising the EVOH-series copolymer as the sheath component, in particular a sheath-core structure conjugated fiber which comprises the EVOH-series copolymer having an ethylene content of 25 to 70% by mole as the sheath component and a crystalline thermoplastic resin having a melting point of not lower than 150° C. as the core component.
Abstract:
A fabric is provided that has high degree of flame resistance in the case of a union fabric consisting of a halogen-containing flame resistant fiber including antimony compounds, and a cellulosic fiber, and the fabric is classified into class M1 of NF P 92-503 combustion test in France. A flame resistant union fabric obtained by co-weaving: (A) a fiber yarn 30% to 70% that has, as a principal component, a halogen-containing flame resistant fiber including an antimony compound 25 parts to 50 parts in an acrylic based copolymer 100 parts consisting of acrylonitrile 30% to 70% by weight, a halogen containing vinyl based monomer 30% to 70%, and a vinyl based monomer copolymerizable therewith 0% to 10%; and (B) a compound yarn 70% to 30% consisting of a cellulosic fiber (b-1) and a fiber melting at temperatures of 200 degrees C. to 400 degrees C. (b-2).
Abstract translation:在由包含锑化合物的含卤素阻燃纤维和纤维素纤维组成的接合织物的情况下提供具有高度阻燃性的织物,并且将织物分类为NF P 92-503的M1类 燃烧试验在法国。 通过共编织获得的阻燃联合织物:(A)以丙烯酸类为主成分的含有锑化合物的含卤素阻燃纤维为主成分的成分为30〜70%的纤维丝25〜50份 共聚物100份,丙烯腈30〜70重量%,含卤乙烯基单体30〜70%,乙烯基系单体可共聚0〜10%。 (B)由纤维素纤维(b-1)组成的复合纱线70%〜30%,在200〜400℃的温度下熔融的纤维(b-2)。
Abstract:
There is provided a flame-retardant knit fabric that sufficiently provides texture and amenity inherent in cotton or urethane foam as a material used in upholstered furniture such as mattresses and chairs, bedding products such as pillows, mattress pads, and futon, and the like, and can make these products highly flame-retardant. The present invention relates to a knit fabric comprising at least two fibers selected from the group consisting of (A) a halogen-containing fiber, (B) a cellulosic fiber, (C) a flame-retardant cellulosic fiber, and (D) a polyester fiber, the knit fabric having a weight per unit area of 150 g/m2 or more, having a thickness of 0.5 mm or more, and having a content of a flame retardant in the whole knit fabric of 2 wt % or more, wherein (weight per unit area of the knit fabric (g/m2))×(thickness of the knit fabric (mm))×(content of the flame retardant in the whole knit fabric (wt %)/100)=10 or more.
Abstract translation:提供了一种阻燃针织织物,其充分提供棉或氨基甲酸酯泡沫中固有的质地和舒适性,作为用于软垫家具如床垫和椅子,床上用品如枕头,床垫和被褥等的材料, 并可使这些产品具有高阻燃性。 本发明涉及一种编织物,其包含至少两种纤维,所述纤维选自(A)含卤素纤维,(B)纤维素纤维,(C)阻燃纤维素纤维和(D) 聚酯纤维,每单位面积重量为150g / m 2以上的针织物,其厚度为0.5mm以上,并且在整个针织物中具有阻燃剂的含量 2重量%以上,其中(单位面积重量的针织物(g / m 2))×(针织物的厚度(mm))×(阻燃剂的含量 整个织物(wt%)/ 100)= 10以上。
Abstract:
This invention relates to a blend of fibers for use in protective clothing, a lightweight fabric made from such blend, protective articles made from the blend or fabric, and methods for making the fabric. The protective fabrics and articles of this invention have the unique combination of being comfortable, being highly effective against electrical arcs and flash fire hazards and having a pleasing appearance. Specifically, these fabrics can be processed to give the look and feel similar to conventional clothing fabrics such as denim fabrics.