1) Crystal stress
结晶应力
2) stress-induced crystallization
应力诱导结晶
1.
A computer modeling of PET HOY structure formation was developed based upon a combination of fundamental spinning kinetic equations, stress-induced crystallization, Euler's equation and Newton's dichotomy.
在基本纺丝动力学方程的基础上,引入显著的应力诱导结晶作用,运用改进的Euler方法和牛顿二分法,通过计算机求解动力学方程组,模拟涤纶HOY结构的形成过程,获得了纤维结构形成与卷绕速度、质量流量和侧吹风温度的关系。
3) reactive crystallization kinetics
反应结晶动力学
1.
The reactive crystallization kinetics of dexamethasone sodium phosphate were investigated in a continuous mixedsuspension mixedproductremoval (MSMPR) crystallizer.
利用连续稳态法在混合悬浮混合产品排除(MSMPR)结晶器中研究了地塞米松磷酸钠反应结晶动力学。
4) stress-induced crystallization
应力诱发结晶
5) high-gravity reactive precipitation
超重力反应结晶法
1.
Ultra-fine needle-like calcium carbonate particles were successfully synthesized by high-gravity reactive precipitation in the rotating packed bed (RPB) reactor.
采用超重力反应结晶法,在旋转填充床(RPB)反应器中,以Ca(OH)2-CO2为反应物系,MgCl2作为晶形控制剂,合成出了短轴为80~200nm、长径比为12~20且短轴及长径比分布较窄的微细针状碳酸钙,并对Ca(OH)2初始浓度、气液比、旋转床转速、反应温度以及MgCl2浓度等因素的影响进行了深入的研究。
2.
The synthesis of nano-sized cubic CaCo3 by the high-gravity reactive precipitation in arotating packed bed reactor(RPBR) was studied at pilot scale.
结果表明,利用超重力反应结晶法可以制备出平均粒度为15-40nm、分布较窄的立方形CaCO3;碳化反应时间是传统方法的1/4-1/10。
3.
The synthesis of nano-sized cubic CaCO3 by the high-gravity reactive precipitation in a rotating packed bed reactor(RPBR) were studied.
结果表明:利用超重力反应结晶法可以制备出平均粒度为15~40nm、分布较窄的CaCO3,碳化反应时间较传统方法缩短约4~10倍。
6) high gravity reactive precipitation
超重力反应结晶法
1.
Ammonia with high purity is obtained from industrial tail gas containing ammonia and carbon dioxide by high gravity reactive precipitation.
利用超重力反应结晶法分离工业尾气氨和二氧化碳以获得高纯氨 ,并将分离后的二氧化碳与氯化钙在超重力反应器中生产超细碳酸钙。
补充资料:轧辊残余应力(见轧辊应力)
轧辊残余应力(见轧辊应力)
residual stresses in roll
zhagun eanyu yingli轧辊残余应力(residual stresses in roll)见礼辐应力。
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