1) Solution Mixing methode
溶液混合(SM)法
2) solution-mixing
溶液混合法
1.
The experiment prepares 0-3 PZT/PVDF piezoelectric composites through solidification,cold isostatic press,and solution-mixing.
利用固相法制备了掺杂有Nb2O5的PZT95/5压电陶瓷,采用固化、冷等静压、溶液混合法制备0-3型PZT/PVDF压电复合材料,经过对这几种方法的分析、比较后发现溶液混合法制备的样品中PZT微粉的分散性要优于前两种制备方法;这几种制备方法中PVDF均有晶相转变,但没有较为明显的β相PVDF存在,对复合材料的电性能的影响不大。
3) mixed solution
混合溶液
1.
Through the analysis of practical example, this article deals with the evaluation about the mass fraction in the mixed solution.
通过具体实例分析论述了混合溶液中质量分数的求值问题,在对常规解法进行剖析的同时,从理论上建 立了新的解题方法。
2.
The PH value of a mixed solution of a strong acid solution with a weak monoacid, the two solutions that their PH values and volumes are equal, isn't changed.
PH值相等的强酸、一元弱酸溶液等体积混合,只要二者不发生反应,混合溶液的PH值保持不变。
3.
A dual wavelength ultraviolet spectrophotometry has been used for determining concentration of SDBS in the mixed solution of SDBS and polyarylamide (PAAm).
针对在三元复合化学驱机理和应用配方研究中需要解决的混合溶液中表面活性剂浓度的定量分析问题,建立了一种用双波长紫外系数倍率法测定十二烷基苯磺酸钠聚丙烯酰胺(SDBSPAAm)混合溶液中SDBS含量的方法,同时考察了PAAm、SDBS、NaCl和Ca2+的浓度以及PAAm的类型和溶液的pH值等因素对测定结果的影响。
4) solution blending
溶液混合
1.
Conductive composite films by solution blending and contact permeation of the conducting guest species into the polyimide(PI) host were prepared, and their structure and properties were discussed in this study.
本文介绍了高分子溶液混合与界面渗透法制备导电高分子复合材料的方法并对复合材料的结构和性能进行了表征。
5) mixture solution
混合溶液
1.
The permittivity of the dimethylsulfoxide(DMSO)-water(H2O)mixture solution was measured by a resonant cavity perturbation method at 2.
45GHz下利用微扰谐振腔法测量二甲基亚砜(DMSO)-水(H2O)混合溶液的等效介电常数过程中,发现混合溶液等效介电常数虚部大于其中任一组分的介电常数虚部的特异现象。
2.
The result indicates that the desiccant of the mixture solution make up with 50% calcium chloride and 50% lithium chloride is higher in dehumidification efficiency than that of pure lithium chloride and pure calcium chloride under the same air inlet conditions.
结果表明,空气和溶液进口参数相同时,以50%CaCl_2+50%LiCl混合溶液为除湿剂的系统除湿效率要高于以纯LiCl溶液、纯CaCl_2溶液为除湿剂的系统。
6) recycled solution
混合碱溶液
补充资料:混合面儿
抗日战争时期华北、东北沦陷区作为粮食配售的一种用玉米心、豆饼、糠秕等混合磨成的粉。
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