Then, the elastic module of the viscous element is inversely analyzed using the steady value of time-dependent parameter components.
然后利用分离出的时效分量趋近值反演黏性元件的弹性参数;
Finally, the viscous parameters of the viscous element are inversely analyzed based on the process value of the time-dependent components.
最后利用时效分量的过程值反演黏性元件的黏滞系数。
Boundary element calculation is applied to the main flow field, while integral methods of the boundary layer theory are applied to the viscous layers.
主流区无粘流动采用了边界元法计算,粘性流动区采用附面层理论的积分关系式计算。
The correspondence between viscous damping and hysteretic damping models was explained, which lays a basis for evaluating damping ratio of structural control element under major earthquake.
简述了粘滞阻尼与滞变阻尼模型之间的联系和对应关系,作为结构振动控制元件在强震下阻尼推算的理论基础。
Unsteady viscous flows over the gliding flap of Multi-element airfoils are simulated and studied by using the moving overlapped grids and the dual-time stepping method.
运用动态嵌套网格技术和双时间推进算法,对多段翼型襟翼滑动的非定常黏性流进行了数值模拟和研究。
Based on high viscous asphalt, this paper mainly studied the following four topics: Firstly, FEM (finite element method) was used to analyze the effect of stress absorbing layer.
本文以高粘性沥青为结合料,主要对以下四方面内容进行了研究:首先,用有限元方法计算分析应力吸收层防治反射裂缝效果。
Low power rate on the surface of heating tube. Medium does not scale, congeal, sinter or carbonize on the surface, and so is ideal heating element for viscous, and heat sensitive liquid medium.
加热器管表面功率负荷低,介质不会在表面结垢、粘结、烧焦、碳化等,是粘性、热敏性液体介质加热的理想元件。
The modeling for three-dimensional incompressible viscous non-isothermal steady flow was presented by using penalty finite element method.
针对幂律型流体,建立了稳态三维粘性不可压缩流体非等温流动的有限元模型。
The penalty finite element equation for ternary viscous incompressible permanent flow inside the guide shell of an oil transmission pump is established by using the penalty finite element method.
运用罚有限元方法,对油泵导壳内部三元粘性不可压缩定常流动建立了罚有限元方程。
In this paper, a finite element method for viscous fluid is used to calculate the velocity and stress fields in the surrounding soft rock of a tunnel.
本文运用粘性流体有限元方法,计算软岩体中巷道围岩的速度场和应力场。
In this paper, a finite element method for viscous fluid is used to calculate the velocity and stress fields in the surrounding soft rock of a tunnel.
本文运用粘性流体有限元方法,计算软岩体中巷道围岩的速度场和应力场。
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