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Multi-objective optimization design for the table of a CNC machine tool based on bionic structures

Shihao Liu, Chenglong Yang, Ganxing Chen, Mao Lin, Jiayi Qin, Mei Li

2024Transactions of the Canadian Society for Mechanical Engineering12 citationsDOI

Abstract

To improve the static and dynamic performance of CNC machine tool tables, a multi-objective optimization design method based on bionic structures is proposed, which involves bionic design and size optimization design. Based on the bionics, four types of bionic structure tables for the original XK5032 machine tool were designed, namely bamboo cross-section bionic structure table, spider web bionic structure table, honeycomb bionic structure table, and prairie rushes bionic structure table. Static and modal analysis of the original and four types of bionic tables were conducted using finite element simulation methods validated through modal experiments. The results show that the overall mechanics of the four bionic tables have been improved compared to the original table. Using the entropy weight TOPSIS method, the prairie rushes bionic structure table was selected from four types of bionic tables. Conducting multi-objective optimization design on the prairie rushes bionic structure table, three optimization candidate schemes were obtained. The entropy-weighted TOPSIS method was used again to select the optimal solution from these three schemes, resulting in a 0.8% reduction in mass, an increase in first-order natural frequency by 2.8%, a decrease in maximum displacement by 3.2%, and a significant 21.6% reduction in maximum equivalent stress compared to the original table.

Topics & Concepts

BionicsTable (database)Finite element methodBellowsModalEngineeringEngineering drawingComputer scienceStructural engineeringMechanical engineeringArtificial intelligenceData miningMaterials sciencePolymer chemistryAdvanced machining processes and optimizationManufacturing Process and OptimizationInnovations in Concrete and Construction Materials