1) crease-resistant finishing
抗皱整理
1.
Nano-ZnO is used as a catalyst for crease-resistant finishing of silk fabric with water-soluble polyurethane.
将纳米 ZnO(氧化锌)作为催化剂,应用于水溶性聚氨酯对丝绸的抗皱整理。
2.
Cotton fabric was treated with the mixture of glutaraldehyde and hydrolyzed starch in the crease-resistant finishing of the fabric.
采用戊二醛与水解淀粉对棉织物进行抗皱整理,通过正交试验,讨论戊二醛和催化剂用量、淀粉水解时间、焙烘温度和焙烘时间等因素对整理后棉织物折皱回复角、断裂强力保持率、白度的影响,得出最佳工艺方案:淀粉水解时间为90min,戊二醛的浓度为70g/L,催化剂浓度为25g/L,焙烘温度为140℃,焙烘时间为3min。
3.
Nano-SiO2 was used as the catalyst of amino-silicone elastomer for crease-resistant finishing of silk knitting fabric.
用纳米SiO2作为氨基硅酮弹性体的催化剂,对真丝针织物进行抗皱整理。
2) anti-crease finish
抗皱整理
1.
The anti-crease finish of rayon fabrics by a multi-component cardoxylic acid;
粘胶织物的多元羧酸抗皱整理
2.
Analysis of factors influencing anti-crease finishing on cotton fabric in presence of nano-catalyst;
纳米催化剂用于纯棉抗皱整理的因素分析
3.
Synthesis and application of polycarboxylic acid anti-crease finishing agent DEMB;
多元羧酸抗皱整理剂DEMB的合成及应用
3) anti-crease finishing
抗皱整理
1.
One-bath acid dyeing and anti-crease finishing of cotton fabrics;
棉织物酸性染料染色和抗皱整理一浴法
2.
Research on the anti-crease finishing of tussah fabrics with glyoxal finishing agent;
乙二醛整理剂对柞蚕丝织物抗皱整理的研究
3.
and time in the anti-crease finishing, and the optimum process was found for ramie blended fabrics according to the strength loss and elastic recovery angles (T+W).
对影响整理效果的树脂和催化剂用量、焙烘温度和时间等因素进行了试验,以强力损失和弹性回复角(T+W)指标为依据,找出了适合苎麻棉混纺织物抗皱整理的最佳工艺:树脂NDW100g/L、催化剂MgCl220g/L、纤维保护剂SVN20g/L,焙烘温度160℃,焙烘时间控制在3min,弹性回复角(T+W)可达265°,强力损失38。
4) durable press finishing
抗皱整理
1.
Piscussion on durable press finishing of viscose fabric;
粘胶织物的抗皱整理工艺
2.
Study on the application properties of the binary composite agent in the durable press finishing;
二元复配抗皱整理剂在DP整理中的应用性质研究
5) Wrinkle resistant finishing
抗皱整理
1.
Research on the wrinkle resistant finishing of silk fabrics with polymaleic acid;
聚马来酸对真丝织物抗皱整理研究
6) anti-wrinkle finishing
抗皱整理剂
1.
Synthesis of polycarboxylic acid anti-wrinkle finishing agent DEMA;
多元羧酸抗皱整理剂DEMA的合成
补充资料:皴皱
1.起皱纹。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条