A kind of composite material-feeding
Technical field
The invention belongs to spinning field, relate to a kind of composite material-feeding.
Background technology
Along with spinning, weave, the lifting of the continuous advancement of Final finishing industrial technology and people's living standard, wear washability and get more and more, people pay attention to comfortableness and the ergonomics performance of socks gradually, in order to adapt to consumer demand, adopt new raw material can produce various Fresh fats material in conjunction with new spinning technology, improved by the hindlimb unload that matches again, increase, improving product wear function, making product cater to market development demand, is also the development trend of new product from now on.
China Patent Publication No. CN101407962A, publication date on April 15th, 2009, name is called Outlast air-conditioning fiber polar fleece and production technology thereof, this application case discloses a kind of Outlast air-conditioning fiber polar fleece and production technology is using Outlast air-conditioning fiber as wire gauze, using polyester filament as loop yarn, weave and process, wherein the content of Outlast air-conditioning fiber is 35-65%.A production technology for Outlast air-conditioning fiber polar fleece, step comprise weave, stamp, dry, roll fluffing and pre-setting, plucking, sizing, carding, cropping after plucking, shake grain and shake grain after shape.Its weak point is, fabric feeling and comfort level poor.
Summary of the invention
The object of the invention is to, in order to solve prior art fabric feeling and comfort level good but can not temperature adjustment defect and a kind of composite material-feeding that a kind of comfort level is good, deodorization is fungi-proofing is provided.
To achieve these goals, the present invention is by the following technical solutions:
A kind of composite material-feeding, described composite material-feeding is interwoven with sizing tram by the composite fibre organizine through Graphene modification, and wherein, composite fibre is formed by bamboo-carbon fibre, polyimide fiber and silver-colored fibrage.
As preferably, composite fibre is formed by the fibrage of 2-3 root bamboo-carbon fibre, 5-10 root polyimide fiber and 3-5 root silver.
As preferably, described sizing tram is polyester fiber or polyurethane fiber.
As preferably, the composite fibre of Graphene modification is placed in by composite fibre after infiltrate soaks 30-60min to dry through segmentation, obtains the composite fibre that Graphene is modified.
As preferably, the mass ratio of described composite fibre and infiltrate is 1:15-20, infiltrate is the aqueous solution of shitosan, acetic acid, trehalose, polyoxyethylene stearic acid ester and quaternary ammonium salt, wherein the mass percent concentration of each component is: Graphene 25-30%, shitosan 1.5-3.5%, acetic acid 1-1.5%, trehalose 5-10%, polyethylene glycol adipate 5-7%, polyoxyethylene stearic acid ester 0.3-0.5%, quaternary ammonium salt 0.1-0.3%.
As preferably, described infiltrate obtains by the following method: after first measuring Graphene, shitosan, acetic acid, trehalose, polyethylene glycol adipate, polyoxyethylene stearic acid ester, quaternary ammonium salt and water successively by the mass percent concentration of component each in infiltrate, successively that acetic acid, shitosan is soluble in water again, add Graphene again and carry out ultrasonic disperse, finally add trehalose, polyethylene glycol adipate, polyoxyethylene stearic acid ester and quaternary ammonium salt to stir simultaneously, obtain infiltrate.
As preferably, the concrete steps that segmentation is dried are: first at 125-135 DEG C, dry 10-20min, then dry at 60-70 DEG C.
The present invention is with low cost, and the thermoregulation effect of the cloth produced is good, and can be used for producing woollen blanket, clothing, footgear etc., deodorization is fungi-proofing and Fabric Style is good.
Detailed description of the invention
Below in conjunction with specific embodiment, the present invention is further explained:
Embodiment 1
A kind of composite material-feeding, described composite material-feeding is interwoven with sizing tram by the composite fibre organizine through Graphene modification, and wherein, composite fibre is formed by bamboo-carbon fibre, polyimide fiber and silver-colored fibrage; Composite fibre is formed by 2 bamboo-carbon fibres, 5 polyimide fibers and 3 silver-colored fibrages; Described sizing tram is polyester fiber or polyurethane fiber; The composite fibre of Graphene modification is placed in by composite fibre after infiltrate soaks 30min to dry through segmentation, obtains the composite fibre that Graphene is modified; The mass ratio of described composite fibre and infiltrate is 1:15, infiltrate is the aqueous solution of shitosan, acetic acid, trehalose, polyoxyethylene stearic acid ester and quaternary ammonium salt, wherein the mass percent concentration of each component is: Graphene 25%, shitosan 1.5%, acetic acid 1%, trehalose 5%, polyethylene glycol adipate 5%, polyoxyethylene stearic acid ester 0.3%, quaternary ammonium salt 0.1%; Described infiltrate obtains by the following method: after first measuring Graphene, shitosan, acetic acid, trehalose, polyethylene glycol adipate, polyoxyethylene stearic acid ester, quaternary ammonium salt and water successively by the mass percent concentration of component each in infiltrate, successively that acetic acid, shitosan is soluble in water again, add Graphene again and carry out ultrasonic disperse, finally add trehalose, polyethylene glycol adipate, polyoxyethylene stearic acid ester and quaternary ammonium salt to stir simultaneously, obtain infiltrate; The concrete steps that segmentation is dried are: first at 125 DEG C, dry 10min, then dry at 60 DEG C.
Embodiment 2
A kind of composite material-feeding, described composite material-feeding is interwoven with sizing tram by the composite fibre organizine through Graphene modification, and wherein, composite fibre is formed by bamboo-carbon fibre, polyimide fiber and silver-colored fibrage; Composite fibre is formed by 3 bamboo-carbon fibres, 8 polyimide fibers and 4 silver-colored fibrages; Described sizing tram is polyester fiber or polyurethane fiber; The composite fibre of Graphene modification is placed in by composite fibre after infiltrate soaks 50min to dry through segmentation, obtains the composite fibre that Graphene is modified; The mass ratio of described composite fibre and infiltrate is 1:18, infiltrate is the aqueous solution of shitosan, acetic acid, trehalose, polyoxyethylene stearic acid ester and quaternary ammonium salt, wherein the mass percent concentration of each component is: Graphene 28%, shitosan 2.5%, acetic acid 1-1.5%, trehalose 8%, polyethylene glycol adipate 6%, polyoxyethylene stearic acid ester 0.34%, quaternary ammonium salt 0.2%; Described infiltrate obtains by the following method: after first measuring Graphene, shitosan, acetic acid, trehalose, polyethylene glycol adipate, polyoxyethylene stearic acid ester, quaternary ammonium salt and water successively by the mass percent concentration of component each in infiltrate, successively that acetic acid, shitosan is soluble in water again, add Graphene again and carry out ultrasonic disperse, finally add trehalose, polyethylene glycol adipate, polyoxyethylene stearic acid ester and quaternary ammonium salt to stir simultaneously, obtain infiltrate; The concrete steps that segmentation is dried are: first at 130 DEG C, dry 15min, then dry at 65 DEG C.
Embodiment 3
A kind of composite material-feeding, described composite material-feeding is interwoven with sizing tram by the composite fibre organizine through Graphene modification, and wherein, composite fibre is formed by bamboo-carbon fibre, polyimide fiber and silver-colored fibrage; Composite fibre is formed by 3 bamboo-carbon fibres, 10 polyimide fibers and 5 silver-colored fibrages; Described sizing tram is polyester fiber or polyurethane fiber; The composite fibre of Graphene modification is placed in by composite fibre after infiltrate soaks 60min to dry through segmentation, obtains the composite fibre that Graphene is modified; The mass ratio of described composite fibre and infiltrate is 1:20, infiltrate is the aqueous solution of shitosan, acetic acid, trehalose, polyoxyethylene stearic acid ester and quaternary ammonium salt, wherein the mass percent concentration of each component is: Graphene 30%, shitosan 3.5%, acetic acid 1.5%, trehalose 10%, polyethylene glycol adipate 7%, polyoxyethylene stearic acid ester 0.5%, quaternary ammonium salt 0.3%; Described infiltrate obtains by the following method: after first measuring Graphene, shitosan, acetic acid, trehalose, polyethylene glycol adipate, polyoxyethylene stearic acid ester, quaternary ammonium salt and water successively by the mass percent concentration of component each in infiltrate, successively that acetic acid, shitosan is soluble in water again, add Graphene again and carry out ultrasonic disperse, finally add trehalose, polyethylene glycol adipate, polyoxyethylene stearic acid ester and quaternary ammonium salt to stir simultaneously, obtain infiltrate; The concrete steps that segmentation is dried are: first at 135 DEG C, dry 20min, then dry at 70 DEG C.
The present invention is with low cost, and the thermoregulation effect of the cloth produced is good, and can be used for producing woollen blanket, clothing, footgear etc., deodorization is fungi-proofing and Fabric Style is good.