Copper ion antibacterial deodorant socks and preparing method thereof
A copper ion and anti-odor technology, applied in the textile field, can solve the problems of skin aging, washing intolerance, drug loss, etc., and achieve the effects of preventing bacterial growth, excellent wrinkle resistance, and high surface energy
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[0022] Example 1:
[0023] A copper ion antibacterial and deodorant socks, which is obtained by blending 35% pure cotton fiber and 65% composite fiber with a diameter of 0.5 micron, the composite fiber is made of the following parts by weight: vinylene carbonate-polymethpropylene 60 parts of imide copolymer, 22 parts of chitosan, 15 parts of titanium dioxide with a diameter of 20 nanometers, 30 parts of ammonia water, 15 parts of copper sulfate, 5 parts of γ-aminopropyl methyldimethoxysilane, anti-aging agent 3 copies.
[0024] A method for preparing copper ion antibacterial and deodorant socks includes the following steps:
[0025] (1) Add ammonia water dropwise to the copper sulfate solution, then a light blue basic copper sulfate precipitate will be formed, continue to drop ammonia water until the precipitate is completely dissolved, and a copper ammonia complex and ion solution will be obtained;
[0026] (2) Heat the vinylene carbonate-polymethacrylimide copolymer to 80°C, then a...
Example Embodiment
[0028] Example 2:
[0029] A copper ion antibacterial and deodorant socks, which is obtained by blending 10% pure cotton fiber, 20% flax fiber and 70% composite fiber with a diameter of 1 micron, and the composite fiber is made of the following parts by weight: vinylene carbonate -50 parts of polymethacrylimide copolymer, 28 parts of chitosan, 20 parts of titanium dioxide with a diameter of 50 nanometers, 20 parts of ammonia water, 10 parts of copper sulfate, N-β (aminoethyl)-γ-aminopropyl 8 parts of methyl diethoxysilane and 5 parts of anti-aging agent.
[0030] A method for preparing copper ion antibacterial and deodorant socks includes the following steps:
[0031] (1) Add ammonia water dropwise to the copper sulfate solution, then a light blue basic copper sulfate precipitate will be formed, continue to drop ammonia water until the precipitate is completely dissolved, and a copper ammonia complex and ion solution will be obtained;
[0032] (2) Heat the vinylene carbonate-polymeth...
Example Embodiment
[0034] Example 3:
[0035] A copper ion antibacterial and deodorant socks, which is obtained by blending 15% pure cotton fiber, 18% abaca fiber and 67% composite fiber with a diameter of 2 microns, the composite fiber is made of the following parts by weight: vinylene carbonate 80 parts of ester-polymethacrylimide copolymer, 12 parts of chitosan, 10 parts of titanium dioxide with a diameter of 30 nanometers, 30 parts of ammonia, 15 parts of copper sulfate, γ-aminopropylmethyl diethoxysilane 8 parts, 3 parts anti-aging agent.
[0036] A method for preparing copper ion antibacterial and deodorant socks includes the following steps:
[0037] (1) Add ammonia water dropwise to the copper sulfate solution, then a light blue basic copper sulfate precipitate will be formed, continue to drop ammonia water until the precipitate is completely dissolved to obtain a copper ammonia complex and ion solution;
[0038] (2) Heat the vinylene carbonate-polymethacrylimide copolymer to 60°C, then add chi...
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