Abstract: A fiber which has an excellent effect of inhibiting virus multiplication or eradication (deactivation); a process for producing the fiber; and a textile product comprising the fiber are provided. The method for producing an antiviral fiber comprises bonding a metal ion of a metal having deactivation effect to a virus and poor solubility in water to at least a part of a carboxyl group of the fiber having a cross-linked structure and having a carboxyl group in a molecule of the fiber; and then depositing fine particles of the metal and/or metal compound in the fiber by reduction and/or substitution reaction.
Type:
Application
Filed:
December 10, 2009
Publication date:
April 8, 2010
Applicants:
JAPAN EXLAN CO., LTD, TOYO BOSEKI KABUSHIKI KAISHA
Abstract: A fiber which has an excellent effect of inhibiting virus multiplication or eradication (deactivation); a process for producing the fiber; and a textile product comprising the fiber are provided. The method for producing an antiviral fiber comprises bonding a metal ion of a metal having deactivation effect to a virus and poor solubility in water to at least a part of a carboxyl group of the fiber having a cross-linked structure and having a carboxyl group in a molecule of the fiber; and then depositing fine particles of the metal and/or metal compound in the fiber by reduction and/or substitution reaction.
Type:
Application
Filed:
March 1, 2005
Publication date:
July 26, 2007
Applicants:
JAPAN EXLAN CO., LTD., TOYO BOSEKI KABUSHIKI KAISHA
Abstract: In a process for producing an aromatic polyester fiber by heat-treating a fiber obtained by melt-spinning an aromatic polyester exhibiting anisotropy in its molten state, an aromatic polyester fiber having high strength and high modulus of elasticity can be produced with suppressed fusion between single filaments during the heat treatment by (a) subjecting the fiber obtained by melt spinning to heat treatment in an organic liquid heating medium or (b) adhering to the fiber obtained by melt spinning at least one member selected from the group consisting of suspensions having a concentration of 0.05 to 20% by weight of organic polymer powders having a melting point or a softening temperature higher than the heat treatment temperature, and suspensions having a concentration of 0.1 to 20% by weight of barium sulfate powder or barium titanate powder, and then subjecting the resulting fiber to heat treatment.
Type:
Grant
Filed:
January 31, 1989
Date of Patent:
September 12, 1989
Assignees:
Sumitomo Chemical Company, Limited, Japan Exlan Co., Ltd.
Abstract: In the course of producing acrylic fibers, the spun filament bundle before the heat stretching treatment is subjected to a special stretching treatment in a warm water bath under a specific condition so that the degree of filament separability of said spun filament bundle traveling through the heat stretching step will be maintained within a prescribed range, and when the acrylic fibers so prepared are heat-treated for carbonization, carbon fibers representing a peculiar load-elongation behavior can be produced in an industrially advantageous manner.
Abstract: A process for producing a carbon fiber tow from an acrylic fiber tow wherein the acrylic fiber tow is treated to uniformily contain throughout the two (1) an aminosiloxane and (2) a chemical substance selected from glycerine, an alkylene glycol, and a polyalkylene glycol prior to heat-treating said acrylic fiber tow to produce the carbon fiber tow whereby problems such as fluffiness, spreading, and filament breakage are diminished.
Type:
Grant
Filed:
April 7, 1982
Date of Patent:
March 29, 1983
Assignees:
Sumitomo Chemical Co., Ltd., Japan Exlan Co., Ltd.
Abstract: The present invention relates to novel water-swellable fibers, of which at least a part of the fiber outer layer portion is composed of a hydrogel, and which fibers have latent or visualized crimps and combine a high degree of water-swellability with excellent physical properties, and to a process for producing the same. The invention also relates to an industrially advantageous process for producing novel water-swellable fibers, of which at least a part of the fiber outer layer portion is hydrogelled, said process comprising putting a prescribed amount of a specific alkali on fibers composed of an acrylonitrile polymer and then heat-treating the fibers.
Abstract: Novel water-swellable fibers having a multiple layer structure consisting of an hydrogel outer layer and an inner layer of an acrylonitrile polymer and/or another polymer, which combine a high degree of water-swellability with excellent physical properties, and a process for producing the same.