Fluid coupling is used as a crane parts.
液力偶合器是用于起重机的一种配件。
A program is developed for structure-fluid coupling vibration.
并编制了流固耦合振动的通用程序。
This machine is mainly composed by the main breaker, motor, fluid coupling, hydraulic station, shock absorbers and so on.
该机主要由破碎机主体、电动机、液力偶合器、液压站、减震器等组成。
Such transmissions make use of a fluid coupling or a torque converter, as well as mechanical, hydraulic, or electrical controls.
除了用机械装置、液压装置或电力装置来控制外,这种变速器还使用液力耦合器或变扭器。
Third, the mathematical model describing the nonlinear creep phenomena of solid-fluid coupling of one-phase fluids in saturated porous medium is established.
第三方面建立了饱和多孔介质单相流体固流耦合蠕变的数学模型。
Main machine and motor connected through the fluid coupling, it can shorten the motor start-up time, reduce the average current during start and prevent overload of the power.
主机和电动机通过液力偶合器连接,能够缩短电机起动时间,减少起动过程中的平均电流,防止动力过载。
The second kind of model is complete coupling one and this model includes the coupling temperature field equation, fluid coupling seepage model equation, rock coupling deformation equation.
第二类模型为完全耦合模型,包括耦合温度场方程、流体耦合渗流方程和岩石耦合变形方程。
Theoretical analysis, onboard test and bench test show that this phenomenon is determined by natural blast torque after throw-out of Marine fluid coupling as well as damping torque of shafting.
理论分析、码头试验及台架试验表明,该现象是由液力偶合器固有的脱排鼓风转矩与轴系阻尼转矩大小决定的。
Fluid coupling has an abroad application by drive unit, in the course of using. It USES liquid kinetic energy to transfer power, improves electromotor start capability, realizes over loading protect.
液力联轴器是一种应用广泛的通用传动装置,它利用液体动能来传递功率,能改善电动机起动性能,实现过载保护。
FCCU (fluid catalysis and cracking unit) is a highly non-linear, time variable, long time delay, intensive coupling, parameter distributed, indefinite and complex system.
催化裂化装置是一个高度非线性、时变、长时延、强耦合、分布参数和不确定性的复杂系统。
Fill oil into the oil tank, when the hydraulic pump is full of oil fluid, manually turn the coupling, till there is no bubble in the oil outlet.
向油箱灌油,当油液充满液压泵后,用手转动联轴节,直至泵的出油口出油并不见气泡时为止。
And by defining ALE interface in coupling interface the interaction between fluid domain and solid domain was transmitted.
在耦合界面上,通过定义ale界面传递流体域和固体域之间的相互作用。
The dispersion equation of structure acoustic coupling system for fluid filled pipes surrounded by elastic media under axisymmetric motion was derived from shell dynamic equation.
从壳体基本运动方程出发,导出了弹性介质中的充液管道在轴对称运动下声振耦合系统的频散方程。
Review was analyzed in this paper in particular introduced the research status of fluid-solid coupling.
本文对此进行了分析回顾,重点介绍了流固耦合的研究现状。
Based on the flow moment equation, developed the lateral motion equation of a Marine riser by considering the coupling of the fluid and the pipe.
从流体的动量方程出发,考虑流体和管道的耦合,推导出输运流体海洋立管的偏微分运动方程。
According to the basic conception of fluid-solid coupling seepage flow theory, an equation of motion should be founded.
根据流固耦合渗流理论的基本思想,建立流固耦合渗流运动方程。
Realizing data exchange to reflect coupling between fluid and structures is essential to solving static aeroelasticity problems.
研究静气动弹性问题一大关键是要解决流固数据耦合。
This paper investigate the distributing complexion of distortion and-stress of valve core, make the analysis of coupling of fluid and solid, investigate the reason of invalidation.
从结构力学角度来研究阀芯的变形及应力分布情况,进行流固耦合分析,研究其失效的可能原因。
How to confirm the internal boundary condition is a difficulty for above fluid-solid coupling heat transfer system.
确定此系统的内部边界条件成为发动机传热研究的难点。
Therefore, the percolation of the deformed media gas reservoir is a process with the strong dynamic coupling between the fluid percolation and the rock deformation.
因此,变形介质气藏的渗流问题实际上是一个流体渗流与岩石变形动态耦合作用极强的过程。
The essence of syntectonic fluid rock interaction lies in the coupling of deformation with fluid chemical reactions.
同变形期流体-岩石相互作用的本质在于变形与流体化学反应的藕合作用。
It is difficult to confirm the internal boundary condition for the above fluid-solid coupling heat transfer system.
确定上述固体、流体耦合传热系统的内部边界条件成为发动机传热研究的难点。
The soil consolidation can be simulated by using a finite element numerical model of fluid-solid coupling of fluid seepage in a deformable porous medium.
针对饱和土固结问题,利用可变形多孔介质中流体渗流的流固耦合有限元数值模型,对该问题进行了数值模拟。
The mathematical model of fluid percolation and rock deformation of fluid-solid coupling is solved with the finite difference method and the finite element method respectively.
分别采用有限差分法和有限元法对流固耦合流体渗流数学模型与岩石变形数学模型进行了求解。
As the VLFS is a long, huge and thin flexible structure, it cannot be counted as a rigid body and its hydrodynamic response in waves is a typical problem of fluid-solid coupling.
由于超大型浮体结构是极为扁平的巨型柔性结构物,不能将其视为刚体,所以它在波浪中的动力响应是一个典型的流固耦合问题。
As the VLFS is a long, huge and thin flexible structure, its hydrodynamic response in waves is a typical problem of fluid-solid coupling and it cannot be counted as a rigid body.
由于超大型浮体结构是极为扁平的巨型柔性结构物,所以它在波浪中的动力响应是一个典型的流固耦合问题,不能将其视为刚体。
Engineering pipes and human blood vessels are fluid-structure coupling systems, both of which have many similar characteristics.
工程管道与人体血管都是典型的流固耦合系统,它们的性质有很多相似之处。
The emergence of casing well damages has close contact with interaction of rock body and fluid. So the research of fluid-solid coupling theory model seems very important.
通过套损机理的研究,可以看出套损问题的发生与岩体和流体的相互作用有着密切的联系,所以研究地下流固耦合的理论模型显得非常重要。
The emergence of casing well damages has close contact with interaction of rock body and fluid. So the research of fluid-solid coupling theory model seems very important.
通过套损机理的研究,可以看出套损问题的发生与岩体和流体的相互作用有着密切的联系,所以研究地下流固耦合的理论模型显得非常重要。
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