1) surface crystallization
表面析晶
1.
The investigation indicates that the phase separation occurs obviously when A1F3 and ZrF4 coexist in glass, the glass is more sensitive to water at high temperature and the surface crystallization often occurs.
研究表明,玻璃中同时含有AlF3和ZrF4时,玻璃产生明显的分相,玻璃在高温下对水比较敏感,容易产生表面析晶。
2) surface spherulite
表面晶点
1.
Several common quality problems with color master batch in PE film(such as surface spherulites, crazing, poor printability, etc.
本文对与色母料有关的PE彩膜常见质量问题(如表面晶点、银纹、印刷性差等)进行了综合探讨。
3) crystal surface
晶体表面
1.
In terms of distributions of macroscopic traces on crystal surfaces, a method was proposed for accurately determining the orientation of crystals for all systems and calculating trace distributions of slip planes and twin planes in both matrix and twin on three surfaces, which are normal to each other, in a single crystal.
从晶体表面宏观迹线配置,提出精确确定各种晶系晶体的取向、计算单晶3个相互垂直表面上基体和孪晶中滑移面和孪生面等边线分布的方法;作为应用实例,精确确定了一种四方点阵结构的Ti-56Al(原子分数,%)单晶的宏观取向,计算和拟合出试样3个不严格垂直表面的指数及其上全部边线分布。
4) Lamella fold surface
结晶表面
5) ice crystal surface
冰晶表面
1.
Based on the theory of ice crystal growth,the mechanism of ice crystal surface growth is decided by the structure of ice crystal surface.
从大分子溶液热力学性质出发,得到了结合抗冻蛋白后冰晶表面微观平衡结构的变化,并讨论了这种变化对冰晶生长形态的影响。
2.
According to the properties of the interaction between the molecules of antifreeze protein and the ice crystal surface in the solution of antifreeze protein,a model on the interaction between the molecules of antifreeze protein and the ice crystal surface is proposed.
根据抗冻蛋白溶液中抗冻蛋白分子与冰晶表面相互作用特点,提出抗冻蛋白与冰晶表面相互作用模型。
补充资料:加核晶析
分子式:
CAS号:
性质: 或称为加晶种的结晶,是一种结晶操作。在待结晶的溶液中加入一定量和一定粒度分布的溶质晶粒作为晶种或晶核,以促进溶质从溶液中结晶析出,并借以对结晶产品中粒度的分布进行控制。
CAS号:
性质: 或称为加晶种的结晶,是一种结晶操作。在待结晶的溶液中加入一定量和一定粒度分布的溶质晶粒作为晶种或晶核,以促进溶质从溶液中结晶析出,并借以对结晶产品中粒度的分布进行控制。
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