1) grain boundary fracture
共面滑移
2) coplanar double-slip-oriented
共面双滑移
3) wall slip
壁面滑移
1.
Effects of temperature,solid particle size and concentration on wall slip behavior of coal-water slurry in pipelines;
温度和固相粒径与浓度对水煤浆管内流动壁面滑移的影响
2.
The role of pressure-dependent wall slip in the generation of hydrodynamic pressure in a sliding gap;
压力相关的壁面滑移在滑动间隙流体动压力产生中的作用(英文)
3.
Based on the analyses of wall slip mechanism of polymer melt flowing,the effects of wall slip on melt filling flow behavior in micro injection molding were investigated.
分析了微尺度下熔体壁面滑移机理,研究了微注塑成形中壁面滑移对熔体充模流动行为的影响。
4) slip plane
滑移面
1.
Characteristics of valence electron structures on metal slip plane;
金属滑移面的价电子结构特性
2.
Dislocation nucleation under an idealized cylinder nanoindenter is analyzed by combination of the elastic stress field distribution beneath the indenter and the coupled constitutive relation on the slip plane.
分析了理想圆柱形纳米触头下的弹性应力场分布,并结合滑移原子层上耦合的本构关系,确定了滑移面位置及滑移面上产生非稳定滑移(位错生成)的临界载荷。
3.
Accord- ing to the engineering geological conditions of Beijing and engineering examples,different order slip plane is educed in this region by finite element numerical simu- lation.
根据北京地区的工程地质条件以及结合工程实例,并通过有限元软件的数值模拟得出了此地区不同于规程的滑移面,在此基础上得出了一种适合此滑移面的优化设计方案,此外在进行安全性验算时引入分项安全系数法进行计算,此方案通过实际工程的应用,不仅安全而且经济效益好。
5) Prismatic slip
柱面滑移
6) interfacial slip
界面滑移
1.
Analysis of interfacial slip in fiber-reinforced composites under transverse loading by the boundary element method;
横向载荷作用下纤维增强复合材料界面滑移的边界元分析(英文)
2.
Molecular dynamics study of interfacial slip behavior of ultrathin lubricating films;
超薄润滑膜界面滑移现象的分子动力学研究
3.
Reynolds equation in cylindrical coordinates which included terms on the liquid inertia force and the interfacial slip was derived from continuous equation and Navier-Stokes equation.
从连续性方程和Navier-Stokes方程出发,推导出在圆柱坐标系中考虑了界面滑移和流体惯性影响的雷诺方程。
补充资料:对角滑移面
分子式:
CAS号:
性质:含对角滑移的滑移反映复合对称动作据以进行的对称元素,晶体学中其符号记作n。滑移反映操作时,先依据对称面进行反映,再继之以沿平行对称面的两个晶轴对角方向进行半周期量的滑移。如晶体在c轴方向有滑移面n,则其滑移量为()/2。若晶体在b或a轴方向有滑移面n,则相应滑移量为()/2或()/2。
CAS号:
性质:含对角滑移的滑移反映复合对称动作据以进行的对称元素,晶体学中其符号记作n。滑移反映操作时,先依据对称面进行反映,再继之以沿平行对称面的两个晶轴对角方向进行半周期量的滑移。如晶体在c轴方向有滑移面n,则其滑移量为()/2。若晶体在b或a轴方向有滑移面n,则相应滑移量为()/2或()/2。
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