利用界面聚合法制备了亚微米级染料前体微胶囊和显色剂微胶囊,探讨了显影条件、囊壁材料用量与影像密度之间的关系。
The relationship between developing conditions and image density, as well as the weight of microcapsule wall material and image density were obtained.
分散染料被微胶囊化后,在不同的转印温度、转印时间、转印浓度下,对纯涤织物进行多次转移印花。
Microcapsule disperse dye were used for multiple - transfer printing on polyester fabric under different conditions, such as temperature, time, and concentration.
针对适于拼染的微胶囊化分散染料的筛选问题,选用c。
In order to study the dyeing properties and select the optimum color matching of the microencapsulated disperse dyes for combination dyeing, c.
分别对高、中、低三种温度类型分散染料,采用原位聚合法进行双层造壁微胶囊化;
Microencapsulated disperse dyes of S, SE and E types with double layered wall were prepared by in-situ polymerization.
本论文采用界面聚合法制备聚脲微胶囊并将分散染料微胶囊用于热溶染色、转移印花、多色多点印花和双面印花等。
Disperse dye microcapsules were applied in thermosol dyeing, transfer printing, multi-color and multi-dot printing and double sided printings.
并将制得的微胶囊化分散染料对仿麂皮织物进行高温高压无助剂染色。
The microencapsulated disperse dyes were used to dye suede-like fabric under high temperature high pressure without auxiliaries, and compared with traditional disperse dyeing.
通过改变微胶囊化时的芯壁比,控制分散染料缓释速率,并考察相应微胶囊化分散染料的高温高压染色上染曲线、初染率、 匀染性及提升力等染色性能。
The ratios of the core and wall were changed in order to control the release rate of the disperse dyestuff during the course of microencapsulation.
采用原位聚合法对分散染料进行双层造壁,制得分散染料微胶囊并应用于分散染料微胶囊/活性染料涤棉一浴法染色。
The pretreatment of pure cotton yarn was carried out using one bath method substituted conventional two bath and two step method in scouring and bleaching process.
采用原位聚合法对分散染料进行双层造壁,制得分散染料微胶囊并应用于分散染料微胶囊/活性染料涤棉一浴法染色。
The pretreatment of pure cotton yarn was carried out using one bath method substituted conventional two bath and two step method in scouring and bleaching process.
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