1·Critical resolved shear stress (o 'crss).
临界分剪切应力。
2·High shear stress inhibited Lip production.
高剪应力对酶活有抑制作用。
3·And osteoblast is most sensitive to shear stress.
其中成骨细胞对剪切应力最敏感。
4·Critical shear stress as related to bed slope was calculated.
计算出了与沟坡相关的临界剪切应力。
5·The main shear stress and its hydraulic system, calculation and research.
主要对其剪切力和液压系统进行计算和研究。
6·The effect of shear rate on shear stress is included in the revised model.
修正后的计算模型考虑了土壤受剪速度对其剪切应力的影响。
7·Draw the element for maximum shear stress and mark values of all stresses.
画出最大剪应力的单元体并标出全部应力值。
8·The interfacial shear stress is a constant proportion of the bottom shear .
交界面的剪力与底部剪力之比是常数。
9·A stress-strain diagram can be plotted using shear stress and shear strain.
应力-应变图可以用来表现剪切应力与剪切变形。
10·The local fluid shear stress play an important role on the remodeling of bone.
局部的流体切应力在骨组织的改建中发挥重要作用。
1·The interfacial shear stress and peel stress between the FRP and the surface of tension flange were analyzed when the FRP was bonded to the tension flange of the bending members.
对受弯构件受拉翼缘外侧粘贴FRP后的界面剪应力和界面剥离应力进行了分析。
2·Normal stress analysis and shear stress analysis arc performed by means of the approach of materials mechanics.
利用材料力学方法对这种梁进行了应力分析,包括正应力分析和剪应力分析。
3·This suggests that there might be a reciprocity between valvular lesion and flow field uniformity as well as turbulent shear stress, which should be further studied.
由此提示,心瓣膜下游流场均匀性及湍流剪应力与瓣膜损害之间可能存在某种互为因果的关系,值得进一步研究。
4·The stress accumulation in the southeastern segment of the fault since 1893 has been calculated, and the corresponding contours of maximum shear stress and hydrostatic stress are shown.
计算了1893年以来在断裂带南东段(相对闭锁段)的应力积累,示出相应的最大剪应力和流体静应力等值线图。
5·Draw the element for maximum shear stress and mark values of all stresses.
画出最大剪应力的单元体并标出全部应力值。