1) dry process
干法制备
1.
Cassava starches were used as raw material,hydrogen-peroxide as oxidizer and CuSO_4 as catalyst to synthesize oxidized starch with dry process by microwave irradiation.
以木薯淀粉为原料,双氧水为氧化剂,CuSO4为催化剂,微波干法制备了氧化淀粉。
2.
Quaternary ammonium alkyl hydroxyethylcellulose ether(QHEC)was prepared via a dry process of reaction of(hydroxyethylcellulose) and N-(2,3-epoxypropyl)-trimethyl ammonium chloride in presence of an alkaline catalyst.
以工业羟乙基纤维素(HEC)和N-(2,3-环氧丙基)三甲基氯化铵(GTA)为原料,在碱催化剂下干法制备不同取代度季铵盐型阳离子羟乙基纤维素醚。
3.
In this paper,dry process of preparing cationic starch is reviewed.
该文评述近年来季铵型阳离子淀粉干法制备研究进展,阐明干法制备阳离子淀粉优点,分析确定阳离子淀粉加工品种具有明显经济和社会效益。
2) dry preparation
干法制备
1.
Dry Preparation of Carboxymethyl Starch and Its Sizing Properties;
羧甲基淀粉浆料的干法制备与上浆性能研究
2.
At present, the methods of oxidized starch are mostly wet preparation, but the reports on dry preparation are relatively less.
氧化淀粉是一种具有特殊用途变性淀粉,该文简单介绍氧化淀粉干法制备工艺,并对氧化淀粉的氧化机理、性质及应用进行阐述。
3) dry process preparation
干法制备
1.
Starch phytate has been prepared by dry process preparation,corn starch and sodium phytate as primal materials.
以玉米淀粉为原料,以植酸钠为改性剂,研究了植酸淀粉的干法制备工艺,探索了pH值、植酸钠用量、植酸钠质量分数、反应温度和反应时间等因素对产品取代度的影响。
4) dry method preparation
干法制备
1.
This paper deals with the dry method preparation of the coal pulverized powder, and through a lot of experiments, discusses the main factors affecting the coal powder size.
通过大量的实验 ,对行星球磨干法制备煤超细粉进行了研究 ,并讨论了对影响粉煤出料粒径的主要工艺 ,确定最佳粉碎条件 ,并在数理分析与计算基础上总结出粉煤粒径与球煤比、粉碎时间、进料粒度的线性关系 ,为超细粉制备技术及粒径预报提供了一定的理论依
5) semi-dry preparation
半干法制备工艺
1.
Study on semi-dry preparation and emulsifying property of waxy maize starch stearates
对硬脂酸蜡质玉米淀粉酯的半干法制备工艺及其乳化性进行了研究,结果表明,硬脂酸蜡质玉米淀粉酯的最佳制备工艺条件为:硬脂酸添加量为4%(干淀粉),反应温度为145℃,反应时间为4h,制得的淀粉酯取代度为0。
6) dry process preparation of the cationic starch
干法制备阳离子淀粉醚
补充资料:格龙德曼醛制备法[Grundmann preparation of aldehydes(from the correeponding acids)]
分子式:
CAS号:
性质:又称格龙德曼醛制备法[Grundmann preparation of aldehydes(from the correeponding acids)]。羧酸酰氯与重氮甲烷反应生成重氮酮,用醋酸处理成相应的酯,水解成α-羰基醇,还原(用氢化铝锂、硼氢化钠等)成邻二醇类化合物,再用高碘酸或四醋酸铝氧化即可得到碳链与原料羧酸相同的醛,是用罗森蒙德还原制备醛的互补方法。
CAS号:
性质:又称格龙德曼醛制备法[Grundmann preparation of aldehydes(from the correeponding acids)]。羧酸酰氯与重氮甲烷反应生成重氮酮,用醋酸处理成相应的酯,水解成α-羰基醇,还原(用氢化铝锂、硼氢化钠等)成邻二醇类化合物,再用高碘酸或四醋酸铝氧化即可得到碳链与原料羧酸相同的醛,是用罗森蒙德还原制备醛的互补方法。
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