The results show that the cationic dyeable polyester fibers can be dyed to change color.
结果表明:阳离子染料可染涤纶纤维可以进行变色染色。
The results showed that cationic dyeable polyester fiber could be dyed at normal pressure.
研究结果表明,三组分阳离子可染涤纶可以在常压下染色。
The production technology of cationic-dyeable modified PET FDY by one-step process is discussed.
本文对一步法生产阳离子染料可染聚酯(C DP)全拉伸丝(FDY)的主要工艺技术进行了分折探讨。
Study on the crystallization properties and morphological structure of cationic dyeable polypropylene fibers;
应用组织学方法观察了雌性空怀双峰驼生殖道的形态结构。
The cationic dyeable polyester fiber was dip-dyed with the cationic dye inks and the fastness to soaping reaches grade 3 or more.
用阳离子染料墨水对阳离子染料可染涤纶纤维进行浸染,牢度都在3级或3级以上。
By the way of polymers blending, dyeable polypropylene resin. was manufactured. Rhelogical properties, spinnability and dyeability were studied.
采用高聚物共混改性的方法,研制出可染聚丙烯树脂,对其流变性、可纺性及其纤维的染色性进行了研究。
The special printing technique was studied for polyester fabrics dyeable with cationic dyes, and a series of experiments were carried out for it.
作者对阳离子染料可染涤纶织物的印花作了一系列探索试验。
Heat performance, rheological properties, spinnability and dyeing behaviour of blend dyeable polypropylene resin are studied for its industrialization.
为使可染型聚丙烯树脂工业化生产纤维,对其热性能、流变性能、可纺性能及染色性能进行了研究。
The antistatic behaviour, mechanical property, dyeability and morphology of PP fiber blending with antistatic component and dyeable materials are studied.
研究了聚丙烯、抗静电组分、可染组分三元共混体系纤维的抗静电性能、力学性能、染色性能及形态结构。
The new technology and technique for producing this easy dyeable polyester fiber are described, in addition to the theoretical base of selecting suitable disperse dyes.
同时叙述了常压沸染普通涤纶制取的新工艺和新技术,涤纶常压沸染用分散染料选择的理论依据。
This device can be applied to measure the alkali weight reduction of various polyester fabrics including cationic dyeable polyester. The analysis deviation is below 1%.
研制的涤纶碱减量自动测控装置可以测定不同结构的涤纶织物的减量率,测量误差小于1%。
The microstructure of polypropylene is highly regularly arranged, so the polymer can not be dyed in conventional method. With polymers blending, the dyeable polypropylene resin is manufactured.
由于聚丙烯高度规整的超分子结构,导致聚丙烯纤维无法用常规方法进行染色加工.采用高聚物共混改性方法,成功地研制出可染型聚丙烯树脂。
Production processing of developing light thin high density fabric that is made of trefoil polyester fibre, cation modification dyeable polyester, fine polyester fibre and combed cotton was discussed.
探讨采用三叶涤纶纤维、阳离子改性可染涤纶纤维、细特涤纶纤维与精梳棉混纺纱开发轻薄型高密织物的生产工艺。
Production processing of developing light thin high density fabric that is made of trefoil polyester fibre, cation modification dyeable polyester, fine polyester fibre and combed cotton was discussed.
探讨采用三叶涤纶纤维、阳离子改性可染涤纶纤维、细特涤纶纤维与精梳棉混纺纱开发轻薄型高密织物的生产工艺。
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