A fibre drawing method for forming a fibre from a low Young's modulus material.

A composition comprising thermoset polymer, shape memory polymer to facilitate macro scale damage closure, and methods for molecular scale healing are provided. The composition can resolve structural defects by a bio-mimetic close-then heal process. In use, the shape memory polymer can provide molecular scale healing in a structural defect. The methods for molecular scale healing can include heating a composition including a thermoplastic such as fibers, particles or spheres to a level at or above the thermoplastic's melting point, then cooling of the composition below the melting temperature of the thermoplastic. The compositions have the ability to close macroscopic defects repeatedly even if another wound/damage occurs in a previously healed/repaired area.

Provided are: a filter medium with high dust collection efficiency, low pressure loss, and a long lifespan; and a filter material used for the filter medium. This composite structure includes ultrafine fibers having a fiber diameter of less than 500 nm, and beads. The outermost surface of the composite structure has at least 500/mm.sup.2 of beads with a diameter of 5 μm or more. The ultrafine fibers and the beads preferably have the same component.

A material for medical use, which contains nanofibers that are formed from a resin containing a silicone-modified polyurethane resin, and which is characterized in that: the silicone-modified polyurethane resin is a reaction product of (A) a long-chain polyol that has a number average molecular weight of 500 or more, (B) a short-chain polyol that has a number average molecular weight of less than 500, (C) an active hydrogen group-containing organopolysiloxane and (D) a polyisocyanate; and the average fiber diameter thereof is less than 2,000 nm. This material for medical use exhibits excellent performance in a biological test.

A material for medical use, which contains nanofibers that are formed from a resin containing a silicone-modified polyurethane resin, and which is characterized in that: the silicone-modified polyurethane resin is a reaction product of (A) a long-chain polyol that has a number average molecular weight of 500 or more, (B) a short-chain polyol that has a number average molecular weight of less than 500, (C) an active hydrogen group-containing organopolysiloxane and (D) a polyisocyanate; and the average fiber diameter thereof is less than 2,000 nm. This material for medical use exhibits excellent performance in a biological test.

The invention relates to melt spun multifilaments based on thermoplastic polyurethane, their production and the use of said melt spun multifilaments to produce technical textiles and clothing such as socks, stockings, compression textiles like medical bandage, surgical hose, orthopedic elastic bandage, sport textiles, underwear etc.

The invention relates to melt spun multifilaments based on thermoplastic polyurethane, their production and the use of said melt spun multifilaments to produce technical textiles and clothing such as socks, stockings, compression textiles like medical bandage, surgical hose, orthopedic elastic bandage, sport textiles, underwear etc.

The present invention provides a thermoplastic polyurethane elastic fiber which exhibits excellent runnability during the production process of paper diapers. A polyurethane elastic fiber according to the present invention has the following characteristics: (a) the polyurethane elastic fiber is composed of a multifilament; (b) the total fineness thereof is from 160 dtex to 2,000 dtex; (c) the outflow start temperature thereof is from 160° C. to 220° C. as measured by a flow tester at an extrusion load of 49 N, a start temperature of 120° C. and a heating rate of 3° C./min; and (d) the bonding force between single yarns is 0.4 cN or more.

The present invention provides a thermoplastic polyurethane elastic fiber which exhibits excellent runnability during the production process of paper diapers. A polyurethane elastic fiber according to the present invention has the following characteristics: (a) the polyurethane elastic fiber is composed of a multifilament; (b) the total fineness thereof is from 160 dtex to 2,000 dtex; (c) the outflow start temperature thereof is from 160° C. to 220° C. as measured by a flow tester at an extrusion load of 49 N, a start temperature of 120° C. and a heating rate of 3° C./min; and (d) the bonding force between single yarns is 0.4 cN or more.

A process for producing an elastic fiber comprising: melt-spinning a raw material composition, which comprises a thermoplastic polyurethane elastomer, at a spinning rate of 2,500 m/min to 10,000 m/min. The thermoplastic polyurethane elastomer comprises soft-segments obtained by reacting a polyether polyol as a long chain polyol.