1) cathodic resin
阳离子型树脂
1.
This paper simply introduces the history of cathodic electrocoating, the synthesis of cathodic resin as well as the compositions and developing trends of cathodic electro coating.
纵观阴极电泳涂装的发展史,在综述阳离子型树脂的合成方法和阴极电泳涂料的基本组成之后,指出今后阴极电泳涂料将向中厚膜、厚膜、高光泽、高充填性、高平整性、高边棱覆盖及低温固化等方向发展。
2) model-La cation resin
镧型阳离子树脂
3) cation exchange resin
阳离子树脂
1.
Hydrolysis of sucrose solution by cation exchange resin in stirred tank reactor;
阳离子树脂催化蔗糖水解的速率及其对一级反应的偏离
4) cation resin
阳离子树脂
1.
ZnO microspheres were prepared by ion exchange process with cation resin as template and characterized by means of TG-DSC,XRD,FTIR,UV-Vis,SEM and N2 adsorption.
以Zn(NO3)2为原料、强酸型阳离子树脂为模板,制备了ZnO微球。
2.
Objective: To optimizate the separation conditions of oxymatrine by cation resin,in order to raise the yield rate of oxymatrine.
目的:优化阳离子树脂分离氧化苦参碱的工艺条件,提高氧化苦参碱得率。
5) cationic resin
阳离子树脂
1.
And the epoxy acrylic cationic resin applicable to cathodic electrodeposition coating was synthesized by using aminating agent of diethanolamine and neutralizing agent of acetic acid.
在110℃下、于一定溶剂中以偶氮二异丁腈和过氧化苯甲酰(BPO)为引发剂,引发由甲基丙烯酸甲酯、丙烯酸丁酯、甲基丙烯酸缩水甘油酯和甲基丙烯酸羟乙酯组成的反应体系,并以二乙醇胺为胺化剂、冰醋酸为中和剂合成了可用于阴极电沉积涂料的环氧丙烯酸阳离子树脂。
2.
The charge property of a new potential myocardial perfusion imaging agent 99m TcN TBI is confirmed by electrophoresis and cationic resin exchange experiments, and the charge property of 99m TcN TBI is compared with that of 99m Tc TBI.
分别应用区带电泳法和阳离子树脂交换法测定了新型潜在心肌灌注显像剂99mTcN TBI的电荷性质 ,且在相同条件下测定了99mTc TBI的电荷性质 ,并进行了比较 。
6) D001 macroporous strong-acid cation exchange resin
D001型阳离子交换树脂
补充资料:离子型树脂
分子式:
CAS号:
性质:又称离子型树脂。含离子型基团的聚合物。按离子型基团分为阳离子型聚合物、阴离子型聚合物和阴阳双离子型聚合物三类。高分子链上离子型基团旁存在带有相反电荷的抗衡离子,无溶剂时,由离子型聚合物与抗衡离子形成高分子酸、碱或高分子盐,称为聚电解质。这类聚合物在离子化溶剂中具有许多特殊的溶液性质。阴离子型和阳离子型聚合物混和后形成离子型高分子间复合物。离子型聚合物可用作表面活性剂、离子交换树脂、水凝胶、石油钻井页岩水化抑制剂等。
CAS号:
性质:又称离子型树脂。含离子型基团的聚合物。按离子型基团分为阳离子型聚合物、阴离子型聚合物和阴阳双离子型聚合物三类。高分子链上离子型基团旁存在带有相反电荷的抗衡离子,无溶剂时,由离子型聚合物与抗衡离子形成高分子酸、碱或高分子盐,称为聚电解质。这类聚合物在离子化溶剂中具有许多特殊的溶液性质。阴离子型和阳离子型聚合物混和后形成离子型高分子间复合物。离子型聚合物可用作表面活性剂、离子交换树脂、水凝胶、石油钻井页岩水化抑制剂等。
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