Dynamic Modeling and Optimal Design of a Horizontal Machining Center Based on Experimental Modal Analysis

The modeling and optimization of machine tool’s dynamic performance remains to be a grand challenge in machine tool design. In this paper. In order to identifying the concentrated modals of a horizontal machining center, a combined experiment modal analysis method is proposed. A FEA dynamic model ac...

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Veröffentlicht in:	Applied Mechanics and Materials 2017-07, Vol.868, p.271-276
Hauptverfasser:	Ma, Yue, Huang, Yu Bin, Yue, Wen Bin, Sun, Wei, Sun, Xin, Sun, Qing Chao
Format:	Artikel
Sprache:	eng
Schlagworte:	Computer simulation Dynamic models Finite element method Frame structures Machine tools Machining Manufacturing cells Modal analysis Modelling Optimization
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creator	Ma, Yue Huang, Yu Bin Yue, Wen Bin Sun, Wei Sun, Xin Sun, Qing Chao
description	The modeling and optimization of machine tool’s dynamic performance remains to be a grand challenge in machine tool design. In this paper. In order to identifying the concentrated modals of a horizontal machining center, a combined experiment modal analysis method is proposed. A FEA dynamic model accurate in frequency and mode shape is built and verified by comparing with EMA results. Based on the model the optimization of frame structure is made, Simulation results shows the optimized frame enhances the dynamic performance of machine tool.
doi_str_mv	10.4028/www.scientific.net/AMM.868.271
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subjects	Computer simulation Dynamic models Finite element method Frame structures Machine tools Machining Manufacturing cells Modal analysis Modelling Optimization
title	Dynamic Modeling and Optimal Design of a Horizontal Machining Center Based on Experimental Modal Analysis
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