1) crease recovery angle
折皱回复角
1.
The result of experiment verified that the Tencels crease recovery angle computed by regression equation of Burgers model.
在纺织材料粘弹性理论的基础上 ,利用Burger四元件模型分析Tencel织物折皱回复角和压烫回复角的松弛规律 ,并分析比较其与涤纶织物松弛规律的差异。
2.
However,silk/cotton fabrics have also an obvious shortcoming,that is,the low wet crease recovery angle,which makes the fabric apt to crease during family washing or in a moist state.
丝/棉织物以其柔和的光泽以及细腻的手感,良好的吸湿性,透气性,优良的悬垂性而成为人们青睐的高品质纺织面料,但丝/棉织物的一个明显弱点是湿态弹性回复角太低,在家庭洗涤或润湿状态下容易产生折皱,本文针对此弱点进行了探讨,采用柠檬酸整理剂对织物进行抗皱处理,讨论了整理剂用量、烘焙温度、烘焙时间、催化剂种类及用量等工艺参数对丝棉织物抗皱整理效果的影响,通过测试在不同整理条件下织物的折皱回复角获得了优化整理工艺。
2) wrinkle recovery angle
折皱回复角
1.
Calculation of wrinkle recovery angles of fabrics using parameters of viscoelasticity solid models;
利用织物粘弹性固体模型参数计算折皱回复角
2.
Relationship of the wrinkle recovery angle and temperature of fabrics finished by shape memory polymer;
形状记忆整理织物的折皱回复角与温度的关系
3.
Relationship between fabric′s wrinkle recovery angle and its physical and mechanical property;
织物折皱回复角与其物理力学性能的关系
4) fabric crease recovery angle
织物折皱回复角
5) dry creasing angle
干折皱回复角
6) DCRA(dry crease recovery angle)
干态折皱回复角
补充资料:折皱
1.层次。 2.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