最后介绍了目前多元羧酸类免烫整理剂的发展趋势。
At last, the new trends of polycarboxylic acids as durable press finishing agents were also mentioned.
采用无甲醛抗皱整理剂多元羧酸聚合物整理纯亚麻织物。
Pure linen fabric was treated with formaldehyde free anti crease finishing agent which was polymerized form polycarboxylic acids.
采用以多元羧酸为酯化剂,无机盐为催化剂的交联体系。
Polycarboxylic acids as esterification agent and inorganic salts as catalyst were used in the research of (cellulose) cross-linking reaction.
本论文合成了一系列苯氧基(苯胺基)多元羧酸化合物。
In this paper, we synthesized a series of phenoxy-(phenylamino) polycarboxylic compounds.
本文分析了纯棉织物的非醛防皱整理剂——有机多元羧酸类防皱整理的机理。
The mechanism of nonformadehyde crease resistant finishing with polycar- boxylic acids of cotton fabric was investigated.
结果表明经多元羧酸改性的棉织物在超临界状态下染色可得到较好的染色效果。
The results showed that the cotton fabrics modified with polycarboxylic acids gave quite good dyeing results under supercritical state.
采用化学分析光电子能谱esca分析了多元羧酸与木材交联反应过程中主要组分的化学结构变化。
Chemical construction changes of components in esterification between wood and polycarboxylic were analyzed by electron spectroscopy for chemical analysis (ESCA) in this paper.
本文研究了单体质量比、皂化反应温度、皂化反应时间、乳化剂掺量、搅拌速度等工艺参数对多元羧酸系防水剂性能的影响。
The influence of monomer mass ratio, reaction temperature, reaction time, emulsifying agent content and mixing speed on polycarboxylic acid type waterproofing agent were studied in this article.
探讨了用马来酸酐水相聚合成聚马来酸(PMA) ,再与柠檬酸(CA)酯化成聚多元羧酸(PMA/CA)免烫整理剂的合成工艺;
The polymer of maleic acid(PMA) was first prepared by water phase polymerization with maleic anhy_dride, and then esterified with citric acid(CA) to form PMA/ CA durable press finishing agent.
其中17个组分经色谱-质谱分析,并用标准化合物进行对照,确定是多元苯羧酸类和酚酸类化合物。
Among these components, 17 of which were identified as benzene carboxylic acids and phenolic acids by using GC-MS analysis and by comparing with authentic compounds.
采用了工业化的不饱和聚醚多元醇为反应单体,合成了一种高减水率,长缓凝时间的新型聚羧酸系高效减水剂。
A kind of unsaturated polyether was adopted as the reactive monomer, synthesis a new type of polycarboxylate superplasticizer with high dispersibility and long retention characters.
采用了工业化的不饱和聚醚多元醇为反应单体,合成了一种高减水率,长缓凝时间的新型聚羧酸系高效减水剂。
A kind of unsaturated polyether was adopted as the reactive monomer, synthesis a new type of polycarboxylate superplasticizer with high dispersibility and long retention characters.
应用推荐