Method for clearing up nanometer uvioresistant antibacterial self-cleaning fabric

An anti-ultraviolet and self-cleaning technology is applied in the finishing field of nano-anti-ultraviolet antibacterial self-cleaning fabrics, which can solve the problem of high production cost and achieve the effects of simple method, easy industrialization, and simplified multi-functional process.

Inactive Publication Date: 2011-12-14
DONGHUA UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there are few such finishing agents and finishing methods at present, and there

Method used

the structure of the environmentally friendly knitted fabric provided by the present invention; figure 2 Flow chart of the yarn wrapping machine for environmentally friendly knitted fabrics and storage devices; image 3 Is the parameter map of the yarn covering machine
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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] Under room temperature and vigorous stirring, a uniform mixed solution of 20 grams of tetrabutyl titanate and 6 grams of acetic acid was added dropwise to 85 mL of a 0.4% hydrochloric acid solution by mass, and then stirred in a water bath at 60 ° C for 30 minutes to obtain transparent nano-TiO 2 Hydrosol. Incorporate cotton fabrics in nano-TiO 2 Double immersion and double rolling in the hydrosol, with a liquid loading rate of 80%, pre-baking at 80°C for 2 minutes; at room temperature, mix magnesium stearate, nitric acid, water and ethanol with a mass ratio of 1:0.5:20:2.5, and stir for 0.5 hours , to obtain a water repellent; the nano-TiO 2 The finished cotton fabric was immersed in a water repellent agent with a bath ratio of 25:1 for 0.5 hour, pre-baked at 80°C for 4 minutes, and baked at 170°C for 2 minutes to obtain an anti-ultraviolet and antibacterial self-cleaning cotton fabric.

Embodiment 2

[0028] Under room temperature and vigorous stirring, a uniform mixed solution of 20 grams of tetrabutyl titanate and 4 grams of propionic acid was added dropwise to 80 mL of a 0.45% hydrochloric acid solution by mass, and then stirred in a water bath at 50 ° C for 60 minutes to obtain a transparent nanometer TiO 2 Hydrosol. Incorporate polyester fabric in nano-TiO 2 Double immersion and double rolling in hydrosol, with a liquid loading rate of 90%, pre-baking at 80°C for 2 minutes; at room temperature, mix magnesium stearate, citric acid, water and ethanol with a mass ratio of 1:1.5:30:5, and at room temperature Stir for 2 hours to obtain water repellent; Nano TiO 2 The finished fabric was dipped and rolled twice in the water repellent agent, with a liquid retention rate of 85%, pre-baked at 70°C for 3 minutes, and baked at 170°C for 2 minutes to obtain an anti-ultraviolet and antibacterial self-cleaning polyester fabric.

Embodiment 3

[0030] Under room temperature and vigorous stirring, a uniform mixed solution of 20 grams of ethyl titanate and 6 grams of propionic acid was added dropwise to 90 mL of a 0.3% nitric acid solution by mass percentage, and then stirred in a water bath at 60 ° C for 40 minutes to obtain transparent nano-TiO 2 Hydrosol. Incorporate polyester fabric in nano-TiO 2 Two-dipping and two-rolling in the hydrosol, liquid-carrying rate 100%, pre-baking at 60°C for 4 minutes; at room temperature, zinc stearate, nitric acid, water and propanol with a mass ratio of 1:0.7:30:4 were mixed, and at room temperature Stir for 1 hour to obtain water repellent; Nano TiO 2 The finished fabric was immersed in a water repellent agent with a bath ratio of 15:1 for 30 minutes, pre-baked at 80°C for 1 minute, and baked at 150°C for 1 minute to obtain an anti-ultraviolet and antibacterial self-cleaning polyester fabric.

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PUM

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Abstract

The invention relates to a method for clearing up a nanometer uvioresistant antibacterial self-cleaning fabric. The method comprises the steps of: (1) mixing a titanium slat with an organic acid in a mass ratio of 10:(1-3), stirring the mixed solution uniformly, then adding the mixed solution into an inorganic acid solution to react at 50-60 DEG C for 30-60 minutes, so as to obtain nanometer TiO2clearing up liquid; (2) soaking and rolling the fabric twice in the nanometer TiO2 clearing up liquid; (3) mixing stearate, hydrolyst, water and alcohol at room temperature to react for 0.5-2 hour toobtain a water repellent; and (4) padding or soaking the fabric mentioned in step (2) in the water repellent, pre-drying and baking the fabric cleared up in a manner of water repellence, thus obtaining a nanometer uvioresistant antibacterial self-cleaning fabric. The method disclosed by the invention is simple and easy to industrialize, and the treated fabric has good self-cleaning performance and also has good uvioresistant and antibacterial performances, so the nanometer uvioresistant antibacterial self-cleaning fabric has good application prospect.

Description

technical field [0001] The invention belongs to the field of self-cleaning fabric finishing, in particular to a finishing method of nanometer anti-ultraviolet and antibacterial self-cleaning fabric. Background technique [0002] Fabrics or textile fibers are easily stained when they come into contact with water-containing stains. Hydrophobic treated fabrics, with their unique self-cleaning and anti-pollution properties, have many undesirable phenomena related to water droplets, such as surface pollution , snow accumulation, oxidation, current conduction, and fluid viscosity can also be effectively contained. It can be widely used in medical personnel clothing, rain / snow clothing, tents, military combat uniforms, etc., and is increasingly favored by people. [0003] In recent years, the harm of excessive ultraviolet radiation to the human body has attracted people's attention. Nano-TiO2 is an inorganic ultraviolet shielding agent, which can effectively shield the UVA and UVB...

Claims

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Application Information

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IPC IPC(8): D06M11/46D06M13/188D06M101/06D06M101/12D06M101/32D06M101/34
Inventor 邢彦军潘成玉苟明明戴瑾瑾
Owner DONGHUA UNIV
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