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Mineral composite cool uvioresistant fiber

An anti-ultraviolet and composite fiber technology, which is applied in the field of textiles, can solve the problems of affecting the effect of cooling fibers, disappearing, and reducing the cooling effect, and achieves the effects of convenient mixed processing and production, improved contact cold feeling, and good heat conduction

Inactive Publication Date: 2022-01-04
ZHEJIANG IND POLYTECHNIC COLLEGE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The current cooling fibers often use traditional fiber materials, and the cooling-related additives are heated in the processed fabrics, so that the processed fabrics have a cool and comfortable effect; however, due to the use of additives, it will In the process of finishing or washing, it is interfered by other additives, resulting in a decline in the cooling effect or even disappearing completely, affecting the effect of the cooling fiber

Method used

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  • Mineral composite cool uvioresistant fiber
  • Mineral composite cool uvioresistant fiber
  • Mineral composite cool uvioresistant fiber

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0040]This embodiment discloses a mineral composite cool anti-ultraviolet fiber, including mutually twisted bamboo pulp fibers, cellulose fibers, anti-ultraviolet fibers and mineral cool-feeling composite fibers, and the mineral cool-feeling composite fibers are processed from cool-feeling masterbatches ;Cool feeling masterbatch includes base material, graphene material and compound mineral modifier, base material can choose masterbatch material according to fiber strength requirement, for example can choose PET material as the basis; After graphene and compound mineral additive are mixed into fiber, then Twisting it with bamboo pulp fiber, cellulose fiber, and anti-ultraviolet fiber can improve the cold feeling of the fiber fabric, good heat conduction and moisture conduction performance, can keep the human skin comfortable, and has the performance of a cool fabric and certain UV protection effect.

[0041] Graphene material can adopt graphene or graphene oxide, also can adop...

Embodiment 2

[0044] This embodiment discloses a mineral composite cool anti-ultraviolet fiber, and on the basis of the first embodiment, the preparation method of the cool-feeling masterbatch is described;

[0045] The preparation steps of the cool-feeling masterbatch include: first mixing the graphene material and the composite mineral modifier; and then compounding the graphene material and the composite mineral modifier through a mixing system to form a coating layer outside the masterbatch base material to obtain cool masterbatch;

[0046] Subsequent addition of graphene materials and composite mineral modified materials can modify the type of substrate, which is convenient for manufacturers to improve and optimize materials; in the production process, only the basic type of masterbatch substrate needs to be selected, and then Among them, graphene materials and composite mineral modifier materials are added in a schematic proportion, and processed to form a cooling masterbatch, which c...

Embodiment 3

[0049] This embodiment discloses a mineral composite cool anti-ultraviolet fiber. On the basis of Example 2, the preparation method of the cooling masterbatch is improved. The difference is that the graphene material and the composite mineral in the cooling masterbatch are modified The active agent is added in two parts;

[0050] In the preparation step of the cooling masterbatch, a part of the graphene material and the composite mineral modifier can be mixed first, and 35-55% of the graphene material and 20-50% of the composite mineral modifier can be used, and the mixed mixture will be put into Among the substrates, the substrate is then processed to form a masterbatch substrate; then the remaining graphene material and the composite mineral modifier are mixed, and the remaining graphene material and the composite mineral modifier are compounded through the mixing system A coating layer is formed outside the base material of the masterbatch to obtain a cool feeling masterbat...

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Abstract

The invention discloses mineral composite cool uvioresistant fiber, and relates to the technical field of textiles. According to the key points of the technical scheme, the mineral composite cool uvioresistant fiber comprises bamboo pulp fiber, cellulose fiber, uvioresistant fiber and mineral cool composite fiber which are mutually twisted; the mineral cool composite fiber is processed from cool master batch; the cool master batch comprises a base material, a graphene material and a composite mineral modifier; and the total mass of the graphene material and the composite mineral modifier is less than 10% of the base material. In the mineral cool composite fiber, graphene and a composite mineral additive are mixed into the fiber, and then the fiber is twisted with the bamboo pulp fiber, the cellulose fiber and the uvioresistant fiber, so that the contact cool feeling of a fiber fabric can be improved, the heat conduction and moisture conduction performance is good, the human skin can be kept comfortable and cool, and the mineral composite cool uvioresistant fiber has the performance of a cool fabric and a certain ultraviolet-proof effect.

Description

technical field [0001] The invention relates to the technical field of textiles, more specifically, it relates to a mineral composite cool-feeling anti-ultraviolet fiber. Background technique [0002] With the continuous improvement of people's living standards, the requirements for fabrics are constantly increasing, and the requirements for the wearing comfort of fabrics are constantly increasing. Cool fabric is a kind of fiber fabric with cool feeling, which has obvious cool and comfortable feeling after wearing on the body, and is especially suitable for summer clothing fabrics. [0003] The current cooling fibers often use traditional fiber materials, and the cooling-related additives are heated in the processed fabrics, so that the processed fabrics have a cool and comfortable effect; however, due to the use of additives, it will In the process of finishing or washing, it is interfered by other additives, resulting in a decrease or even complete disappearance of the co...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): D02G3/04D02G3/44D01F1/10D01F6/92
CPCD02G3/04D02G3/44D01F1/10D01F6/92
Inventor 盛冠忠
Owner ZHEJIANG IND POLYTECHNIC COLLEGE
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