将分析结果与台架试验结果进行对比,验证了有限元分析方法的可行性,为今后的结构优化研究提供了方向。
The analysis results meet with the bench test result very well, which verified the possibility of the FEM analysis method, and provide a direction ibr the research to optimization of structure.
与其他免疫优化算法的对比仿真结果表明其不但具有较快的收敛速度和较好的稳定性,而且优化效果更为令人满意。
The result of simulation indicates that not only the algorithm has quick constringency speed and better stability, but also the result of optimizing is more satisfactory.
通过实验数据和数值模拟结果的对比,研究了泰勒杆实验在材料动态本构关系参数确认和优化方面的应用。
By comparing the results of Taylor test and computational simulation, a validating and optimizing method on dynamic constitutive model material constants was proposed.
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