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金属切削过程有限元仿真关键技术及应考虑的若干问题 被引量:13

Key Techniques of Finite Element Simulation in Metal Cutting Process and Some Considerations
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摘要 华侨大学摘要:有限元仿真是研究金属切削的一门有效而重要的技术。本文介绍在金属切削过程模拟中有限元仿真技术的应用和发展,深入分析和研究工件材料模型、自适应网格划分、切屑分离判别、刀—屑接触面摩擦模型以及刀—屑接触长度确定等五项关键技术;讨论了在实际金属切削过程有限元仿真中的真实性、可操作性、效率等方面应考虑的若干问题。 Finite element simulation is an effective and important technology in metal cutting studying. The application and development of finite element simulation technology in the metal cutting process is introduced, and the five key technologies including work-piece material model, adaptive mesh, chip separation criterion, the fiiction model of tool-chip contacted surface and tool-chip contacted length determination are researched and analyzed, and some considerations which are authenticity, operability, efficiency and so on in finite element simulation based on metal cutting process are discussed.
作者 李涛 顾立志
机构地区 华侨大学机电及自动化学院 华侨大学
出处 《工具技术》 北大核心 2008年第12期14-18,共5页 Tool Engineering
基金 国务院侨务办公室自然科学基金(06QZR06)
关键词 有限元 金属切削 弹塑性变形 自适应网格 finite element, metal cutting, elastic-plastic deformation, adaptive mesh
分类号 TG506 [金属学及工艺—金属切削加工及机床] TP212 [自动化与计算机技术—检测技术与自动化装置]
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参考文献18

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二级参考文献23

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共引文献104

同被引文献98

引证文献13

二级引证文献60

工具技术
2008年 第12期

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