基于有限元分析的破碎机结构优化

Optimization of Crusher Structure Based on Finite Element Analysis

基于有限元分析技术,对破碎机的构造进行了精心优化,旨在提升其性能。首先,通过构建破碎机的有限元模型,深入剖析了其结构在受力过程中的应力分布及存在的主要问题。依据材料力学与结构力学原理,提出了一项创新性优化设计方案,涵盖了材料的精心挑选与结构的精致改良。借助有限元分析软件,对改进后的构造进行了模拟验证,证实了改进设计的实效性与操作性。对破碎机结构进行优化后,结果显示该优化设计显著提升了破碎机的工作效率与使用年限,由此预见其将拥有广阔的应用前景及显著的经济效益。

This exploration is based on finite element analysis technology and carefully optimizes the structure of the crusher,aiming to improve its performance.Firstly,by constructing a finite element model of the crusher,thoroughly analyzed the stress distribution and main problems of its structure during the stress process.Based on the principles of material mechanics and structural mechanics,this study proposes an innovative optimization design scheme,which covers the careful selection of materials and the exquisite improvement of structures.Subsequently,with the help of finite element analysis software,the improved structure was simulated and verified,confirming the effectiveness and operability of the improved design.Through experimental verification,after optimizing the structure of the crusher,the results show that the optimized design significantly improves the working efficiency and service life of the crusher.Therefore,it is predicted that it will have broad application prospects and significant economic benefits.