1) Delamination shearing
分层剪切
1.
Delamination shearing theory functionally gradient materials laminted beam under complex loads;
功能梯度材料悬臂梁受复杂载荷作用的分层剪切理论
2) separated shear layer
分离剪切层
1.
The influence of an acoustic forcing on the separated shear layer of a blunt circular cylinder and the variation of evolution of the separated shear layer have been experimentally investigated in the Reynolds numbers ranging from 3.
0×105的范围内,实验研究了声激励对钝圆柱体分离流动的影响,分离剪切层发展演化的改变,给出了最佳声激励频率范围,并探讨了声激励控制分离流动的作用机理。
2.
Visualization results demonstrate the evolution of Kelvin-Helmholtz unstable waves into vortex pairing in a separated shear layer of a blunf circular.
流动显示演示了轴对称钝体前缘分离剪切层中Kelvin-Helmholtz不稳定波的演化发展情况。
3) thermally stratified shear flow
温差剪切分层流
1.
The microstructure of circumfluence and the characteristic of the mixing intensity on the cross-section of thermally stratified shear flow in curved flumes are studied experimentally.
对弯段温差剪切分层流的断面环流微细结构与掺混强度特征进行了试验研究。
4) delamination shearing deformation theory
分层剪切理论
1.
The results of calculation demonstrates that the delamination shearing deformation theory used in analysis of transverse shear effect on the poplar-straw laminated beam not only has theoretic value,but also has application meaning.
针对杨木—秸秆层合梁的弯曲问题,利用分层剪切理论对其变形和强度进行了分析。
5) layering shear anatexis
分层剪切深熔
6) interlaminar shear
层间剪切
1.
The curves showing the relationship between the strength of the ultrahigh molecular weight polyethylene fiber bundle treated by atmospheric argon plasma and the epoxy resin interlaminar shear strength were investigated by varying technical conditions of low temperature and atmospheric argon plasma.
改变低温常压氩等离子体处理条件,考察处理后超高分子量聚乙烯纤维束强度与环氧树脂层间剪切应力与各变化因子的关系曲线,通过比较性能的变化,研究氩等离子体处理条件对纤维界面性能的影响。
补充资料:层间剪切强度
分子式:
CAS号:
性质:层压件和纤维增强复合材料中层与层之间的最大剪切强度。作用于面上的应力与面相平行。其值较小。如树脂为环氧体系,增强材料为玻璃纤维时,纤维方向的拉伸强度达103MPa,而层间剪切强度为40~50MPa。
CAS号:
性质:层压件和纤维增强复合材料中层与层之间的最大剪切强度。作用于面上的应力与面相平行。其值较小。如树脂为环氧体系,增强材料为玻璃纤维时,纤维方向的拉伸强度达103MPa,而层间剪切强度为40~50MPa。
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