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基于DEFORM-3D的高速车削加工仿真 被引量:32

Finite element simulation of high-speed turning using DEFORM-3D
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摘要 DEFORM-3D是应用有限元方法(FEM)分析三维复杂加工过程的模拟工具,它不仅鲁棒性好,而且易于使用。借助于该模拟分析环境,能够对切削过程中刀具几何参数、切削条件以及加工过程中的其他因素产生的影响进行研究。应用DEFORM自带的切削仿真模型,模拟高速车削加工中工件及刀具的温度分布、切屑流动、应力、应变和切削力等。模拟结果对减少产品试验、降低开发成本、缩短开发新产品及新工艺的时间等方面都具有重大意义。DEFORM-3D对于研究刀具几何模型、切屑形成以及切削参数控制的刀具制造者和使用者来说,是一个较理想的工具。 DEFORM-3D is a powerful robust simulation tool that uses the Finite Element Method (FEM) to analyze the three-dimensional complex machining processes. It provides a virtual testing environment in which engineers can study the influence of tool geometry,cutting conditions,and other factors on machining process performance. The high-speed turning process modeled uses DEFORM. With the help of model, the turning cutting forces prediction and the temperature distribution in the work piece and cutting tool, chip flow, stress and force or power requirements are simulated. The result of the simulation is crucial meaning to reducing the need for production trials, lower development costs and shorter lead times for new products and processes. DE- FORM-3D is an ideal tool for both cutting tool manufacturers and users who wish to study the effects of insert geometry and cutting parameters on chip formation and control.
作者 武文革 黄美霞
机构地区 中北大学机械工程与自动化学院
出处 《现代制造工程》 CSCD 北大核心 2009年第11期91-94,24,共5页 Modern Manufacturing Engineering
基金 山西省高等学校青年学术带头人资助项目 山西省重点实验室开放基金资助项目(2007031007) 山西省自然科学基金资助项目(2008011056)
关键词 高速车削 有限元 DEFORM软件 仿真 high-speed turning FEM DEFORM simulation
分类号 TP391 [自动化与计算机技术—计算机应用技术]
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参考文献8

  • 1Arrazola P, Ozel T. Numerical modelling of 3-D hard turning using Arbitrary Eulerian Lagrangian finite element method [ J ]. International Journal of Machining and Maehinability of Materials ,2008,3 ( 3 ).
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  • 3Ozel T, Ahan T. Process Simulation Using Finite Ele- ment Method-Prediction of Cutting Forces, Tool Stresses and Temperatures in High-speed Flat End Milling Process [ J ]. International Journal of Machine Tools and Manufacture ,2000,40( 5 ) :713 - 738.
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二级参考文献20

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共引文献47

同被引文献162

引证文献32

二级引证文献106

现代制造工程
2009年 第11期

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