1·The method overcomes the shortcoming of grain growing above the initial crystallization temperature in annealing method, successfully preparing nano-crystalline material of very small grain .
该方法避免了传统的退火法在晶化温度以上晶粒长大这一缺点,成功制备出晶粒极细小的纳米材料。
2·The study indicates that synthetic conditions such as crystallization temperature and time, the type and composition of organic templates, could effect on SAPO-11 molecular sieves synthesis greatly.
研究表明,合成条件,如晶化温度和时间、有机模板剂的类型和组成等,都对SAPO - 11分子筛的合成有很大影响。
3·The process of in-situ crystallization is that the roasted microparticles in the liquid phase convert into sodium silicoaluminate gel first and then the gels convert into zeolite Y gradually.
原位晶化过程是焙烧微球在液相组分中先转变为硅铝酸钠凝胶,随后硅铝酸钠凝胶逐步地转变为Y型沸石。
4·The GPE made of PVDF has bad solution retention capacity because of crystallization of PVDF and its heat stability has improved after adding PMMA.
由PVDF形成的凝胶电解质由于不断晶化,导致对电解液的保持能力欠佳,用添加pmma的方法改善了其热稳定性。
5·The technology has advantages that decrease the cost of production, shorten the crystallization period, and simplify synthesis process.
此工艺具有生产成本低,晶化时间短、过程简单等特点,是有工业应用前景的生产方法。
1·The cool crystallization of uniaxially oriented PET was studied at different draw ratios and humidity by DSC.
采用DSC研究了不同拉伸比的单轴取向PET纤维在不同湿度下的冷结晶过程。
2·During this crystallization minute grains of a metal such as iron have given flowed together to form a concentration.
在此结晶过程中,细小的金属(例如铁)颗粒汇流到一起就形成一个富集体。
3·The effect of impurity fe 3 + on the crystallization of sodium persulfate was studied.
研究了铁离子杂质对过硫酸钠结晶过程的影响。
1·Mixed with other plasticizers, volatile and can overcome the disadvantages such as low temperature crystallization.
与其他增塑剂混用,可以克服挥发性大和低温结晶化等缺点。
2·Two dimensional crystallization of membrane proteins is the base on which their three dimensional structure are solved by electron crystallography.
膜蛋白的二维结晶化是蛋白质电子晶体学解析膜蛋白三维结构的基础。
3·The silicide may provide a template for crystallization, decreasing the defect density of the silicon and improving its conductivity.
硅化物可 以提供用于结晶化的模板,降低了硅的缺陷密度并且提高了其导电性。
4·All of these crystal healings are charged through purified channels. Without the relative crystallization of the healer working with the crystal, the crystal will not be properly charged.
如果没有相应的结晶化的治疗者与水晶一同工作,水晶就无法被适当地充能。