基于ANSYS的气动平衡器气缸筒壁厚优化设计
发布时间:2019-01-17 14:13
【摘要】:针对气动平衡器气缸筒壁厚优化设计问题,提出了基于ANSYS的气缸筒壁厚优化设计方法,实现了在满足给定刚度和强度条件下质量最小的优化设计目标,并用现场实验和真实数据对有限元仿真结果进行了验证。该优化方法提高了气动平衡器气缸筒壁厚设计计算效率,降低了加工成本,对探索新的气缸筒壁厚优化设计方法提供参考。
[Abstract]:In order to solve the problem of optimal design of cylinder wall thickness of pneumatic balancer, an optimal design method of cylinder wall thickness based on ANSYS is proposed, which realizes the optimal design goal of minimum mass under given stiffness and strength. The finite element simulation results are verified by field experiments and real data. This optimization method improves the efficiency of the design and calculation of cylinder wall thickness of pneumatic balancer and reduces the processing cost. It provides a reference for exploring a new optimization design method of cylinder wall thickness.
【作者单位】: 山东科技大学机械电子工程学院;
【分类号】:TH138
[Abstract]:In order to solve the problem of optimal design of cylinder wall thickness of pneumatic balancer, an optimal design method of cylinder wall thickness based on ANSYS is proposed, which realizes the optimal design goal of minimum mass under given stiffness and strength. The finite element simulation results are verified by field experiments and real data. This optimization method improves the efficiency of the design and calculation of cylinder wall thickness of pneumatic balancer and reduces the processing cost. It provides a reference for exploring a new optimization design method of cylinder wall thickness.
【作者单位】: 山东科技大学机械电子工程学院;
【分类号】:TH138
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