1) Alkyl polyglucosides(APG)
烷基多苷(APG)
2) alkyl polyglycosides
烷基多苷
1.
Study on bleaching process of alkyl polyglycosides by peracetic acid and hydrogen peroxide;
烷基多苷的过氧乙酸漂色及组合漂色工艺研究
2.
Influence of residual glucose and polyglucose on color of alkyl polyglycosides during removing of alcohol;
脱醇体系中残糖及多糖对烷基多苷色泽的影响
3.
Synthesis new surfactant——alkyl polyglycosides;
新型表面活性剂烷基多苷的合成
3) alkyl polyglucosides
烷基多苷
1.
Investigation on foaming behaviors ofalkyl polyglucosides and their stability in hard water;
烷基多苷的泡沫性能及在硬水中的稳定性研究
2.
Investigation on viscosity and emulsifying properties of alkyl polyglucosides;
烷基多苷的粘度及乳化性能研究
3.
The identification of different components in raw alkyl polyglucosides(APGs) mixture were achieved by ESI-MS method.
采用电喷雾质谱法剖析非离子型表面活性剂——烷基多苷(APGs)的组成与结构。
4) alkyl polyglycoside
烷基多苷
1.
Preparation and properties of alkyl polyglycosides sulfate of porphyra;
紫菜烷基多苷硫酸酯的制备及其性能
2.
Application and research of alkyl polyglycoside complex system in dishwashing detergent;
烷基多苷复配体系在餐具洗涤剂中的应用
3.
The disodium alkyl polyglycoside sulfosuccinate was synthesized by esterifying and sulfonating reaction of alkyl polyglycoside,succnic acid in the presence of p-toluenesulfonic acid,and influence fac- tors of the synthetic process were also studied.
以烷基多苷、顺丁稀二酸酐为原料,对甲苯磺酸为催化剂,通过酯化、磺化反应合成了阴离子表面活性剂—烷基多苷磺基琥珀酸单酯二钠盐,探讨了各主要影响因素对合成反应过程及结果的影响。
5) Alkyl polyglucoside
烷基多苷
1.
Styrene polymerization in alkyl polyglucoside microemulsion;
烷基多苷微乳液中苯乙烯聚合的研究
2.
Study on properties of complexes of alkyl polyglucoside;
烷基多苷的复配性能研究
6) APG
烷基多苷
1.
Primary Biodegradation of APG;
蒽酮法研究烷基多苷(APG)的初级生物降解性
2.
Research on Primary Biodegradation of APG;
烷基多苷(APG)生物降解性的研究
3.
Study on the compatible system of APG;
烷基多苷复配体系在餐具洗涤剂中应用研究
补充资料:烷基多苷
APG表面活性剂称为烷基多苷,是90年代兴起的一种新型表面活性剂,兼有非离子和阴离子型表面活性剂的许多特点,它与任何表面活性剂都能兼溶,并可增强其他表面活性剂的效能,DP值1.4~2.0。无毒。
用作乳化剂、分散剂。
外观 淡黄色液体或膏体 游离葡萄糖 <1%
含量 50%水溶液 表面张力 (23~29)×10-3N/m
粘度 200~400mPa·s PH值 7.5~9.5
游离脂肪醇 <1%
用作乳化剂、分散剂。
外观 淡黄色液体或膏体 游离葡萄糖 <1%
含量 50%水溶液 表面张力 (23~29)×10-3N/m
粘度 200~400mPa·s PH值 7.5~9.5
游离脂肪醇 <1%
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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