Anti-UV cloth fiber and manufacture method thereof
A technology of anti-ultraviolet and production method, applied in the field of fabric fibers, can solve the problems of aging, fading of textiles, failure to achieve protection, etc., and achieve the effects of short production cycle, not easy to aging and fading, and low cost
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Embodiment 1
[0022] An anti-ultraviolet fabric fiber, comprising the following raw materials in parts by weight: 23 parts of waste wood products, 20 parts of bamboo, 22 parts of bagasse, 18 parts of cotton wool, 17 parts of talcum powder, 19 parts of zinc oxide, 16 parts of pottery clay, 14 parts of calcium carbonate and 20 parts of water.
[0023] A method for making an anti-ultraviolet cloth fiber, comprising the steps of:
[0024] Step 1, crush waste wood products, bamboo, bagasse and cotton wool until passing through a 200-mesh sieve, and mix evenly;
[0025] Step 2, crushing the zinc oxide and calcium carbonate, drying the pottery clay at 120°C and then pulverizing, mixing the zinc oxide, calcium carbonate, pottery clay powder and water, and stirring evenly;
[0026] Step 3. Finally, add waste wood products, bamboo, bagasse and cotton wool powder to the mixture of the product of step 1 and the product of step 2, and then stir evenly for dehydration, drying, slicing, spinning, winding...
Embodiment 2
[0032] An anti-ultraviolet fabric fiber, comprising the following raw materials in parts by weight: 12 parts of waste wood products, 15 parts of bamboo, 11 parts of bagasse, 8 parts of cotton wool, 10 parts of talcum powder, 13 parts of zinc oxide, 11 parts of pottery clay, 7 parts of calcium carbonate and 13 parts of water.
[0033] A method for making an anti-ultraviolet cloth fiber, comprising the steps of:
[0034] Step 1, crush waste wood products, bamboo, bagasse and cotton wool until passing through a 200-mesh sieve, and mix evenly;
[0035] Step 2, crushing the zinc oxide and calcium carbonate, drying the pottery clay at 120°C and then pulverizing, mixing the zinc oxide, calcium carbonate, pottery clay powder and water, and stirring evenly;
[0036] Step 3. Finally, add waste wood products, bamboo, bagasse and cotton wool powder to the mixture of the product of step 1 and the product of step 2, and then stir evenly for dehydration, drying, slicing, spinning, winding, ...
Embodiment 3
[0042] An anti-ultraviolet fabric fiber, comprising the following raw materials in parts by weight: 23 parts of waste wood products, 15 parts of bamboo, 22 parts of bagasse, 8 parts of cotton wool, 17 parts of talcum powder, 13 parts of zinc oxide, 16 parts of pottery clay, 7 parts of calcium carbonate and 20 parts of water.
[0043] A method for making an anti-ultraviolet cloth fiber, comprising the steps of:
[0044] Step 1, crush waste wood products, bamboo, bagasse and cotton wool until passing through a 200-mesh sieve, and mix evenly;
[0045] Step 2, crushing the zinc oxide and calcium carbonate, drying the pottery clay at 120°C and then pulverizing, mixing the zinc oxide, calcium carbonate, pottery clay powder and water, and stirring evenly;
[0046] Step 3. Finally, add waste wood products, bamboo, bagasse and cotton wool powder to the mixture of the product of step 1 and the product of step 2, and then stir evenly for dehydration, drying, slicing, spinning, winding, ...
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