Multifunctional multielement textile finishing agent

A fabric finishing agent and multi-functional technology, applied in fiber treatment, textiles and papermaking, etc., can solve problems such as single function and lack of smooth body feeling

Inactive Publication Date: 2016-08-10

杨恩弟 +1

4 Cites 2 Cited by

AI-Extracted Technical Summary

Problems solved by technology

In addition, the finishing auxiliaries commonly used at present can soften the fabric a...

Abstract

The invention relates to a polyester and pure cotton fabric functional textile finishing agent. The finishing agent is a multifunctional multielement textile finishing agent by compounding of the following components: 8-10% (weight percentage) of dimethyl siloxane, 20-30% (weight percentage) of nanoscale zinc oxide powder, 7-10% of diamino-modified silicone oil (weight percentage), 2-4% (weight percentage) of fatty acid monoglyceride, 1-3% (weight percentage) of white oil, 1-3% (weight percentage) of stearic acid, and 50-61% (weight percentage) of deionized water. The technical key points of the multifunctional multielement textile finishing agent lie in that: first, nanotechnology zinc oxide powder is introduced into a textile finishing process to produce excellent function, and second, active matters various design required functional active matters are employed for compounding, so that the active matters can coordinate to give play to respective functions so as to achieve the respective functions required by the design.

Application Domain

Fibre treatment

Technology Topic

PolyesterPolymer chemistry +10

Examples

Experimental program(2)

Example Embodiment

[0016] Example 1:

[0017] Zinc oxide powder (20-30nm) 4%

[0018] Dimethicone: 9%

[0019] Amino silicone oil: 8%

[0020] Fatty acid monoglyceride: 3%

[0021] Fatty acid diglyceride: 3%

[0022] White oil: 3%

[0023] Stearic acid: 2%

[0024] Deionized water: 68%

Example Embodiment

[0025] Example 2:

[0026] Zinc oxide powder (20-30nm) 4%

[0027] Dimethicone: 10%

[0028] Amino silicone oil: 3%

[0029] Fatty acid monoglyceride: 3%

[0030] Fatty acid diglyceride: 3%

[0031] White oil: 2%

[0032] Stearic acid: 1%

[0033] Deionized water: 68%

[0034] The preparation process of the product of the present invention (in the following sequence steps)

[0035] Preparation of multiple compounding agent:

[0036] (1) First, heat the stearic acid, white oil and part of the non-ionized water to 80 degrees according to the proportion, and stir well for 10 minutes.

[0037] (2) After mixing quantitative amounts of fatty acid monoglycerides and fatty acid diglycerides, add an appropriate amount of non-ionized water and heat to 80 degrees, and stir evenly.

[0038] (3) Mix the quantitative dimethyl silicone oil and amino silicone oil, stir evenly and set aside.

[0039] (4) Mix a quantitative amount of zinc oxide powder with an appropriate amount of ion-free water and stir well for later use.

[0040] (5) Add all the remaining non-ionized water to the dissolved fatty acid monoglyceride and fatty acid diglyceride solution and stir evenly, then add the dissolved white oil and stearic acid mixed solution to the above mixed solution, and then high speed After stirring for 10 minutes, change to the normal speed and slowly add the aforementioned silicone oil mixture while stirring. After stirring for 10 minutes, add the dissolved zinc oxide solution and stir for 10 minutes. Then, the milky white product prepared above is allowed to stand overnight and filtered with a 200-mesh screen to remove trace residues, and the filtrate is a multifunctional and multi-functional textile finishing agent.

[0041] Instructions:

[0042] Add enough tap water to the mechanized dyeing and finishing equipment as required, and then add the fabric to be dyed and finished. Add it while heating up, and add it according to the total proportion of 3% of the fabric. Multifunctional and multi-functional fabric finishing agent, dye and finish at 60-70 degrees for 20 minutes.

PUM

Property	Measurement	Unit
Particle size	30.0	nm

Description & Claims & Application Information

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