1) arterial wall shear stress
动脉壁面切应力
1.
The analysis of the signals of arterial wall shear stress (WSS) plays an important role in the study of the relationship between WSS and arterial remodeling.
动脉壁面切应力信号的分析对研究切应力与血管重建的关系有重要意义。
2) arterial wall shear stress(WSS)
动脉壁切应力
3) Wall shear stress
壁面切应力
1.
Experimental analysis on influence from sudden change of roughness of open channel bottom on friction velocity of turbulent flow and wall shear stress;
明渠渠底糙率突变对紊流摩阻流速及壁面切应力影响的试验分析
2.
Experimental measurement of the wall shear stress in horizontal air-water bubbly flow;
水平管内气液两相泡状流壁面切应力的实验测量
3.
CFD simulation of wall shear stress in gas-liquid vertical and inclined upward slug flow;
垂直及倾斜上升管内气液两相弹状流壁面切应力的模拟
4) wall shear stress
壁面剪切应力
1.
An analysis is made of the wall shear stress and the stress fields of the molten polymers in various flow zones of annular dies.
详细分析了聚合物熔体在圆环隙口模中不同流动区域的壁面剪切应力和应力场 ,并讨论了流道截面形状的变化对壁面剪切应力的影响规律 ,以及熔体受力对其弹性流变效应和挤出物中残余应力的影响 结果表明 ,在熔体挤出过程中 ,压缩区对熔体的流动具有重要影
2.
With the inflow boundary condition of periodic pulsatile velocity,rigid aneurysm model is established and the features (velocity,pressure and wall shear stress) of the flow field in aneurysm are investigated numerically.
采用计算流体动力学(CFD)数值模拟的方法,在周期性脉动速度入流条件下,建立刚性动脉瘤模型并研究了动脉瘤模型中流场的特征(速度、压力、壁面剪切应力)。
5) wall pressure fluctuations
壁面压力脉动
1.
Rich information of unsteady vortical structures immersed in wall turbulence is discernible in the weak signals of wall pressure fluctuations.
在壁湍流中,壁面压力脉动虽然信号微弱,但包含了湍流中许多旋涡结构运动特征。
6) wall pressure and heat transfer fluctuations
壁面压力和热流率脉动
补充资料:锁骨下动脉-锁骨下动脉-颈动脉旁路术
锁骨下动脉-锁骨下动脉-颈动脉旁路术
适用于大动脉炎所致的左锁骨下动脉和左颈总动脉起始处缩窄、闭塞而无名动脉通畅者,无名动脉分叉处缩窄、闭塞而左锁骨下动脉通畅者。手术在全麻下取双侧颈部横切口。显示双侧锁骨下动脉,用0.7~0.8cm口径的人工血管,经胸锁乳突肌后方隧道,作人工血管与锁骨下动脉端-侧吻合。若颈总动脉起始处有缩窄、闭塞者,加作颈部垂直切口,显露颈总动脉,再以等粗人工血管与颈总动脉及移植于两锁骨下动脉间的人工血管分别作端-侧吻合。手术可纠正或改善脑部和左上肢的血液供应。
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