最后进行了与摇摆机相结合的激振装置的设计,包括激振装置的结构设计、激振装置的动力学参数和电磁参数的设计与计算。
The process of design includes the structure design of the vibrating device and the calculation of kinetics parameters and electromagnetism parameters of the vibrating device.
介绍了PW—200型转向架设计技术参数、结构特点、动力学计算和试验分析。
The designed technical parameters, structural characteristics, dynamics calculation and test analysis of the PW 200 type bogies are described.
借助机械系统动力学仿真分析软件ADAMS,探讨了在计算力矩、模糊变结构控制策略和所遴选的轨迹规划方法下,机械手的控制效果。
By using the simulation software ADAMS, the performance of manipulator which employing the designed control algorithms and the selected path planning method has been discussed.
依据简化的力学模型,按照结构动力学原理和方法计算其反应。
According to the simplified mechanical model, it can be calculated by the principle of structure dynamics and methods.
从结构分析、动力学计算和动力特性实验三个方面阐述并研究了弹性联轴器的动力学特点。
Dynamic characteristics of an elastic coupling are expounded in three aspects including structure analysis, dynamics calculation and test.
用于一维瞬态流和管网系统结构动力学计算。
Calculation of 1d fluid transients and structural dynamics of pipeline systems.
在此模型中,把实车上使用的控制软件和车辆数值计算机械结构模型结合起来,再现了倾摆主动控制装置的动力学。
In the model the dynamics of the tilting active control devices are reproduced, combining the numerical mechanical model of the vehicle with the control software used on the real vehicle.
CFD计算的结果预测了密封的动力特性以及密封结构参数对转子动力学特性的影响,可以指导密封的设计和压缩机改造,综合考虑性能和制造成本,实现优化设计。
The results of CFD simulation predicted the dynamic properties of seals and the effect of their structural parameters on rotor dynamic characteristics, and guided design of more stable compressors.
根据搬运机器人的性能要求,设计出它的机械结构,然后对其进行动力学分析,计算出实现给定运动所需要的驱动力和力矩。
The paper mainly studies the parallel mechanism, whole scheme design of the robot, kinematics solution of the parallel mechanism and so on, aiming at the hybrid carrying robot.
表皮生长因子受体的三维结构通过同源蛋白模建的方法得到,而抑制剂和靶酶结合复合物结构则通过分子力学和分子动力学结合的方法计算得到。
The 3d structure of EGFR was constructed using homology modeling, and the complex structures between receptor and ligands were predicted by using molecular mechanics and molecular dynamics.
混沌是一种现象和行为,而神经网络是一种特定计算模式的拓扑结构,它们有自身的特征,但也有共同的规律,即非线性动力学特性。
Chaos is a kind of phenomenon and behavior, and neural network is a kind of topology with specific compute mode. They have their own characters and similar nonlinear characters.
混沌是一种现象和行为,而神经网络是一种特定计算模式的拓扑结构,它们有自身的特征,但也有共同的规律,即非线性动力学特性。
Chaos is a kind of phenomenon and behavior, and neural network is a kind of topology with specific compute mode. They have their own characters and similar nonlinear characters.
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