着重分析了相间作用力,包括壁面剪切应力、虚拟质量力、拖拽力,对压力波传播速度和衰减的影响。
The interphase forces on the propagation were investigated, including wall shear stress, virtual mass force and drag force.
这些现象主要是由于准静水压下剪切应力的作用。
These drastic changes of superconductivity were mainly due to the shear stress under quasi-hydrostatic pressure.
计算海底剪切应力时应用波流共同作用模型,而不是纯波浪和纯水流两种情况下的剪切应力的叠加。
The combined wave-current models are applied to the calculation of bed shear stress instead of the simple addition of wave and current.
计算中的底部剪切应力由波流边界层模型给出波—流共同作用下的形式。
In calculation, the bottom shear stress under the effect of waves and currents is supplied by the wave-current bottom boundary layer model.
作用在骨骼细胞上的应力包括压-拉应力和剪切应力,剪切应力是骨骼细胞能感受到的主要应力作用。
Forces acting on the bone cells include compressive tensile stress and shear stress. The shear stress is the main force which can be sensed by the bone cells.
当接触面被完全剪断后,模型中的剪切应力出现了一定程度的下降,此后的剪应力在摩擦力的作用下基本保持不变。
However, as the interface was fully damaged, shear stress would decrease to a certain degree, and the residual shear stress nearly kept a constant value which equal to the friction force.
元古宙正剪切应力继承作用,产生了与裂谷型绿岩带平行的主剪切带及其金矿。
Due to inherited effect of the positive shear stress of proterozoic era, the main shear zone which ran parallel to rift greenstone belt and its gold deposits came into being.
剪切过程有利于水—岩反应,形成有利于金富集的物理—化学环境; (4)剪切应力可使低应力载金矿物发生富集作用。
Water-rock reaction formed a environment for gold settling and (4) Shear stress forced gold and bearing-gold minerals into shear failures.
Zakrzewicz在他的综述中所提供的研究数据表明Foxo - 1转录因子(1999年首次被描述)可以被剪切应力通过Akt所介导的磷酸化作用所灭活。
Zakrzewicz will present data from studies showing that the transcription factor Foxo-1, first described in 1999, can be inactivated by shear stress via Akt-mediated phosphorylation.
Zakrzewicz在他的综述中所提供的研究数据表明Foxo - 1转录因子(1999年首次被描述)可以被剪切应力通过Akt所介导的磷酸化作用所灭活。
Zakrzewicz will present data from studies showing that the transcription factor Foxo-1, first described in 1999, can be inactivated by shear stress via Akt-mediated phosphorylation.
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