以一种新的方法建立了在微重力环境、横向激励下圆柱贮箱液固耦合系统的动力学方程。
The dynamic equations for the coupling system of cylindrical tank partially filled with liquid are established under horizontal excitation in micro-gravity environment.
讨论了此类液-固耦合问题的解耦条件及对应的应力路径。
The decoupled conditions of stress paths for the liquid-solid coupling equations were discussed.
讨论了流体的流速、压强变化以及固—液耦合阻尼和固—液耦合刚度对管道固有频率的影响;
The influence of flowing velocity, pressure, solid_liquid coupling damp and solid_liquid coupling stiffness on natural frequency are discussed respectively.
分析了渗流场与裂隙岩体形变场耦合关系的研究意义和现状,建立了裂隙岩体固液两相介质的应力耦合模型,模型中裂隙面的产状可直接采用野外实测数据。
In the paper, the significance and the present states of the research on the coupled relationship between the vadose field and the deformation field in fractured rock mass is analysed.
本方法可推广应用于分析圆柱等其它形状贮箱中液体的三维晃动情形下的液固耦合系统动力学特性。
The present method can be extended to the analysis of the dynamic behavior of liquid-structure coupling of cylindrical container in the case of three-dimensional liquid sloshing.
液体压强矩阵方程和压电硅片振动有限元方程耦合,得到一个包含微泵进出口扩散管的液-固耦合系统振动方程。
The fluid pressure equation is combined with vibration equation of silicon diaphragm to construct liquid-solid coupling system equations for a micropump.
分析了液固耦合情况下的超声波传播特性,取得了与光弹法物理试验相一致的结果。
Numerical results of the ultrasonic propagation characteristics in a liquid-solid coupled interface are in accord with those obtained by photo-elastic experiments.
采用SPH和FEM耦合的方法,考虑流固耦合效应的影响,对典型矩形薄壁充液容器的跌落过程进行数值仿真。
Smoothed particle hydrodynamics (SPH) method coupled with finite element method (FEM) is used to simulate the dropping of rectangular fluid-filled tank.
利用二者模型的底层接口,搭建了液固耦合的轴向柱塞泵虚拟样机模型。
Solid-liquid coupling virtual prototype of axial piston pump was put up based on the interface of the two models.
这对于高超声速飞行器中液固耦合问题的研究具有一定的实际意义。
The research of hypersonic vehicle for liquid-solid coupling problems has some practical significance.
针对立式钢制储罐抗震计算的模型简化问题,将储罐简化为三质点体系,即晃动质点、液固耦合质点、刚性脉冲质点。
The storage tank is simplified into three particle system, including slosh particle, liquid-solid coupling particle and rigidity pulse particle.
而对于其中的储液罐与液体的流固耦合问题,主要采用附加质量法进行解耦分析研究。
The fluid-structure interaction problem of cylindrical tank is solved mainly with added mass method.
在考虑管内介质及流速的情况下,应用adina中流体-结构耦合分析求解器adina - FSI分析了固液耦合作用下地下管道的破坏情况。
Buried pipeline's damage under fluid-structure interaction is analyzed through ADINA-FSI with conveying medium and velocity in consideration.
评述了电感耦合等离子体原子发射光谱中的 进样技术(包括液、固、气 进样技术)的新近进展,引用近期文献118篇。
The recent progress of sample introduction techniques including liquid, solid and gaseous sampling in ICP spectrometry is reviewed, 118 references are cited.
评述了电感耦合等离子体原子发射光谱中的 进样技术(包括液、固、气 进样技术)的新近进展,引用近期文献118篇。
The recent progress of sample introduction techniques including liquid, solid and gaseous sampling in ICP spectrometry is reviewed, 118 references are cited.
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