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Quantum titanium fiber material

A titanium fiber and quantum technology, which is applied in the field of quantum titanium fiber materials and its preparation, can solve the problems of anti-ultraviolet radiation, antibacterial performance reduction, poor durability, and single function of silk fiber, so as to maintain soft and comfortable performance and avoid waste of resources. Realize the effect of resource utilization

Inactive Publication Date: 2019-07-16
张慧
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] Aiming at the deficiencies of the prior art, the object of the present invention is to provide a quantum titanium fiber material with anti-ultraviolet, antibacterial, antistatic, and breathable properties. The fiber material has good affinity with the skin and has the effect of medical care. , can be in direct contact with human skin, and the anti-ultraviolet and antibacterial properties will not be reduced during processing, which solves the problem of single function and poor durability of silk fiber at present, and meets people's needs for multi-functional clothing

Method used

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Examples

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Embodiment 1

[0044] A quantum titanium fiber material, which is prepared by spinning a hybrid material of quantum dots, silk fibroin and polymer materials, wherein the quantum dots are graphene / titanium dioxide composite quantum dots, and the graphite ene / titania composite quantum dots include: sulfur and nitrogen co-doped graphene / titanium dioxide composite quantum dots, sulfur and nitrogen co-doped titanium dioxide / graphene composite quantum dots, sulfur and nitrogen co-doped graphene / sulfur and nitrogen co-doped Heterotitanium dioxide composite quantum dots, the polymer material is composed of the following raw materials in parts by weight: 22 parts of polyethyleneimine, 15 parts of alginic acid and 3 parts of gelatin; the specific preparation method is as follows:

[0045] (1) Preparation of graphene / titanium dioxide composite quantum dots:

[0046] Add 0.05 mol of glacial acetic acid to 0.1 mol of tetrabutyl titanate, then add 5.4 g of deionized water, stir and mix thoroughly to obtai...

Embodiment 2

[0052] A quantum titanium fiber material, which is prepared by spinning a hybrid material of quantum dots, silk fibroin and polymer materials, wherein the quantum dots are graphene / titanium dioxide composite quantum dots, and the graphite ene / titania composite quantum dots include: sulfur and nitrogen co-doped graphene / titanium dioxide composite quantum dots, sulfur and nitrogen co-doped titanium dioxide / graphene composite quantum dots, sulfur and nitrogen co-doped graphene / sulfur and nitrogen co-doped Titanium dioxide composite quantum dots, the polymer material is composed of the following raw materials in parts by weight: 32 parts of polyethyleneimine, 21.5 parts of alginic acid and 5.5 parts of gelatin; the specific preparation method is:

[0053] (1) Preparation of graphene / titanium dioxide composite quantum dots:

[0054] Add 0.075mol glacial acetic acid to 0.1mol tetrabutyl titanate, then add 7.2g deionized water, stir and mix thoroughly to obtain a titanium dioxide pre...

Embodiment 3

[0060] A quantum titanium fiber material, which is prepared by spinning a hybrid material of quantum dots, silk fibroin and polymer materials, wherein the quantum dots are graphene / titanium dioxide composite quantum dots, and the graphite ene / titania composite quantum dots include: sulfur and nitrogen co-doped graphene / titanium dioxide composite quantum dots, sulfur and nitrogen co-doped titanium dioxide / graphene composite quantum dots, sulfur and nitrogen co-doped graphene / sulfur and nitrogen co-doped Hetero-titanium dioxide composite quantum dots, the polymer material is composed of the following raw materials in parts by weight: 42 parts of polyethyleneimine, 28 parts of alginic acid and 8 parts of gelatin; its specific preparation steps are as follows:

[0061] (1) Preparation of graphene / titanium dioxide composite quantum dots:

[0062] Add 0.1mol glacial acetic acid to 0.1mol tetrabutyl titanate, then add 9.0g deionized water, stir and mix thoroughly to obtain a titanium...

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Abstract

The invention discloses a quantum titanium fiber material. The quantum titanium fiber material is prepared from a hybrid material of quantum dots, silk fibroins and polymer materials through the spinning technology. Besides the soft and comfortable properties of silk fiber, the quantum titanium fiber material has excellent air permeability, antimicrobial property, anti-ultraviolet-ray property, anti-static property, durability and health-care functions, the UPF of the woven fabric is far greater than 30, the T (UVA) is far less than 5%, and the anti-bacterial rate is more than 90%. The material solves the problems that a current silk fabric is monotonous in function and poor in durability, and the material can be used for textile fabrics and meets the needs of people for multi-functionalclothing.

Description

technical field [0001] The invention relates to the field of composite fiber materials, in particular to a quantum titanium fiber material and a preparation method thereof. Background technique [0002] With the improvement of living standards, people's requirements for clothing are not only satisfied with wearing comfort, but also hope that the clothing has functionality, such as deperspiration and moisture absorption, breathability, UV protection, antibacterial performance, health care performance, etc. People's clothing is functional The requirements are getting higher and higher, and the research on clothing textile materials has attracted much attention. [0003] Silk is light and slender, the fabric has good luster, comfortable to wear, smooth and plump, moisture-absorbing and breathable, known as the queen of fibers, and is widely used to weave various high-grade satin and knitwear. Fibers mainly include silk fibroin and sericin. Under long-term light, heat, biologic...

Claims

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Application Information

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IPC IPC(8): D01F8/02D01F8/16D01F1/09D01F1/10
CPCD01F1/09D01F1/10D01F1/103D01F1/106D01F8/02D01F8/16
Inventor 张慧
Owner 张慧
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