In this paper, stress-constrained topology optimization is applied to the design of compliant displacement magnification mechanisms. By formulating the objective function based on the concept of effective energy, it is not necessary to place artificial spring components at the boundaries of the output and input ports as in previous methods. This makes it possible to design mechanisms that do not receive a reaction force at the output port, such as sensors. Furthermore, by imposing a constraint on the maximum stress evaluated in terms of the p-norm of the von Mises equivalent stress, problems such as stress concentration can be avoided. Several numerical examples of displacement magnification mechanisms are provided to demonstrate the effectiveness of the proposed method.
翻译:在本文件中,压力限制的地形优化适用于符合要求的流离失所放大机制的设计,通过根据有效能源概念制定客观功能,没有必要像以前的方法那样将人工弹簧组件置于产出和输入港口的边界上,这样就可以设计出在产出港口没有反应力的机制,例如传感器;此外,通过对冯·米塞斯等同压力的p-norum所评估的最大压力施加限制,可以避免压力集中等问题;提供了若干流离失所放大机制的数字例子,以证明拟议方法的有效性。