The optimization results show that the optimization parameters of the displacement restrictor can satisfy restricting condition and the multi-objects optimization can be realized.
计算结果表明,通过优化得到的限位器优化参数能够满足约束条件并实现多目标优化。
IMSP and PPIGA have been combined to solve the optimization problem of the displacement restrictor parameters, which is significant for the optimization design of the shock isolation system.
将增量模态叠加法和伪并行改进遗传算法相结合,解决了冲击隔离系统限位器参数的优化问题,这对于冲击隔离系统的优化设计具有重要的实际意义。
By analyzing the properties of the foam-filled circular tube structure under different impact-velocity, the results confirm that the structure can be used as plastic displacement restrictor.
通过对填充圆管在不同冲击速率情况下的特性分析,表明其可用作塑性限位器。
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