1·It can generate dynamic water pressure which have different frequency and different range;
可以产生不同频率、不同幅度的动态水压力波形;
2·Finally, the application of this concept to solving dynamic water pressure of hydroelectric structure or dam is discussed.
最后,讨论了求解水能结构或坝的动水压有关应用问题。
3·The bending and shearing model in beam mode arc usually used for computation of dynamic water pressure for cylindrical storage tank.
在对贮液圆柱壳进行动水压力计算时常常仅仅采用整体弯曲和整体剪切两种计算模型。
4·Two methods considering dynamic water pressure in ANSYS were studied, which were finite field addition mass method and sequence weak coupling solving method.
重点研究了在ANSYS中考虑动水压力的两种方法,即有限域内附加质量法和顺序弱耦合算法。
5·According to the working principle of effective stress, the constitutive relation between dynamic water pressure and rock contact pressure has been analyzed.
根据岩土有效应力作用原理,分析了动水压力和岩体接触压力间的本构关系。
6·Flexibility equations of the cantilever with inequable length elements are provided, the dynamic water pressure and foundation elasticity considered, and a relevant computer program is developed.
提供了不等间距的悬臂梁柔度计算公式,考虑了地震动水压力的作用与地基弹性的影响,研制了相应的计算程序。
7·The research of dynamic stability shows it important to consider excess pore water pressure.
通过对动力稳定性研究表明了考虑孔隙水压力影响的重要性。
8·Some behaviors of saturated flyash such as pore water pressure, dynamic strength, and dynamic deformation are studied by the dynamic torsional shear test.
通过动扭剪试验研究饱和粉煤灰的动孔隙水压力特性、动强度特性以及振陷变形特性。
9·Finally, the curves of axial strain and dynamic pore water pressure coefficient were figured and analyzed.
最后,绘制了试样轴向应变与动孔隙水压力系数的关系曲线,并分析了曲线的变化规律。
10·The results show that the method has unique advantage. A new way to consider the effect of hydrodynamic pressure is provided to analyse the dynamic interaction between dam and water in reservoir.
计算表明,这种方法在分析坝-库水动力相互作用时为考虑动水压力提供了一种方便的途径。