2) compound ion
复合离子
1.
In order to solve the problems as high mud density and low penetration rate as well as difficulty in treating mud, meeting with in drilling at the area with abnormally high pressure, this paper puts forward a new method for treating heavy mud by use of compound ion-type polymer.
本文提出了用复合离子型聚合物处理重泥浆的新方法,经室内试验和现场初步实践,取得较好效果,可供现场参考。
2.
A comprehensive indoor experiment and application at well-site were done for the compound ion polymer drilling fluid.
本文对复合离子聚合物钻井液做了较全面的室内试验和现场应用。
3) complex ions
复合离子
1.
A new lead-free piezoelectric ceramics of Bi1/2Na1/2Ti1–x(Zn1/3Nb2/3)xO3(abbreviate as BNTZN—100x) were prepared by the two-steps synthesized method and the effect of B-site the complex ions-(Zn1/3Nb2/3)4+ substitution amount on the piezoelectric and dielectric properties was investigated.
研究了B位复合离子(Zn1/3Nb2/3)4+取代量对BNT陶瓷介电及压电性能的影响。
2.
A new kind of lead-free piezoelectric ceramics of Na1/2Bi1/2Ti1-x(Ni1/3Nb2/3)xO3 is prepared by the two-step synthesis method and the effect of the B-site complex ions substitution on the piezoelectric and dielectric properties is investigated.
研究了B位复合离子取代对NBT陶瓷晶体结构及压电、介电性能的影响。
3.
A new lead-free piezoelectric ceramics of Bi1/2Na1/2Ti1-x(Mg1/3Nb2/3)xO3 was prepared by the two-step synthesize method and the effect of B-site the complex ions substitution on the piezoelectric and dielectric properties was investigated.
研究了B位复合离子取代对BNT陶瓷的晶体结构及压电与介电性能的影响。
4) ion-ion recombination
离子-离子复合
5) ion ion recombination
离子 离子复合
6) complex ionic
复合离子型
1.
A complex ionic copolymer,JHG.
在室内合成了一种阴、阳、非复合离子型多元共聚物———JHG ,对其性能进行了全面的评价。
补充资料:复合离子交换膜
分子式:
CAS号:
性质:又称阴阳复合型离子交换膜(anion-cation composite membrane),复合离子交换膜。是特性离子交换膜的一种。这种膜的一面为阳离子膜结构层,另一面为阴离子膜结构层。一般采用阴膜与阳膜经热压加工而成。在直流电场下,阴、阳层结合处的水分子解离为OH-离子及H+离子。利用双极膜的这一特性,可进行中性盐的分解制取酸、碱,如从硫酸钠Na2S04制取H2SO4及NaOH,并可用于无机、有机化工产品的分离、重组和精制等方面。
CAS号:
性质:又称阴阳复合型离子交换膜(anion-cation composite membrane),复合离子交换膜。是特性离子交换膜的一种。这种膜的一面为阳离子膜结构层,另一面为阴离子膜结构层。一般采用阴膜与阳膜经热压加工而成。在直流电场下,阴、阳层结合处的水分子解离为OH-离子及H+离子。利用双极膜的这一特性,可进行中性盐的分解制取酸、碱,如从硫酸钠Na2S04制取H2SO4及NaOH,并可用于无机、有机化工产品的分离、重组和精制等方面。
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