1) fluid shear stress
流体切应力
1.
Objective To study the change of Ca2+ density in cultured osteoclast-like cells in response to fluid shear stress.
目的研究流体切应力对培养于载玻片上的破骨细胞内Ca2+浓度的影响。
2.
Fluid shear stress plays a key role in many physiological activities and pathological processes of the cardiovascular diseases.
为阐明内皮细胞 IL- 8的生成除了与切应力的作用时间有关外还与切应力的强度有关 ,我们用不同强度的流体切应力 (2 。
2) flow shear stress
流体剪切应力
1.
Flow shear stress induced molecular events of bone cells;
流体剪切应力对骨细胞分子活动的影响
2.
Objective To clarify the effect of flow shear stress (FSS) on the expression of core binding factor α1 (Cbfα1) in human osteosarcoma MG-63 cells cultured in simulated microgravity environments and the mechanism of osteopenia induced by weightlessness.
目的观察模拟失重条件下培养的人骨肉瘤MG-63成骨样细胞受流体剪切应力(FSS)作用后核心结合因子α1(Cbfα1)表达的改变,初步探讨失重情况下骨质减少的可能机制。
3) fluid shear stress
流体剪切应力
1.
The migration of endothelial cell induced by fluid shear stress is related to many physiological and pathological responses in organism.
内皮细胞在流体剪切应力作用下进行迁移运动,与机体多种生理病理过程密切相关,也是近年来国内外研究的热点问题。
2.
Objective To investigate the effects of fluid shear stress on interleukin-8(IL-8)mRNA expression in human endothelial cell line-EA.
目的探讨流体剪切应力作用下,人内皮细胞株EA。
4) Turbulent shear stress
湍流切应力
5) turbulence shear stress
紊流切应力
1.
It can be concluded that the velocity gradient and the turbulence shear stress are the pivotal factors in the process of coagulation,through the analysis of the structure of viscous fluid turbulent boundary layer.
通过对粘性流体紊流边界层的结构分析,得到混凝反应中关键性的控制因素,速度梯度和紊流切应力。
6) Fluid shear stress
流体剪切力
1.
Effects of fluid shear stress on the proliferation and cell cycle of rat osteoblasts in vitro;
流体剪切力对大鼠成骨细胞增殖及细胞周期的影响
2.
Effects of fluid shear stress and cytoskeletal disruption on the actin cytoskeleton
流体剪切力和细胞骨架阻断对肌动蛋白丝的影响
3.
The research progress of the fluid shear stress on the osteoblast cell
流体剪切力对成骨细胞影响的研究进展
补充资料:等效切应力
等效切应力
equivalent shear stress
dengxlaoq一eyingll等效切应力(equivalent Shear stress)一般应力状态下的各应力分量经适当组合而形成的与纯剪切应力等效的应力,也称统一切应力,切应力强度。其表达式为一六寸(一,2+(一,2+(一)2 等效切应力与偏应力张量二次不变量(见应力张量)的关系为二一了,万,与八面体切应力二(见八面体应力)仅差一常系数,与坐标轴变换无关。 (王占学)
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