Optimization of Micro-Texture Distribution through Finite-Element Simulation
作者: Wan, Q.Zheng, M. L.Yang, S. C.Sun, J. K.
刊名: International Journal of Simulation Modeling, 2019, Vol.18 (3), pp.543-554
来源数据库: DAAAM International Vienna
DOI: 10.2507/IJSIMM18(3)CO15
关键词: Micro-TextureFinite-Element Method (FEM)Micro-Round-Pit (MRP)Wear ResistanceFriction Performance
原始语种摘要: The existing studies on micro-texturing of cutting tools only tackle the micro-textures of uniform distribution. The theoretical and experimental bases are severely lacking for the effects of different micro-texture distributions on the anti-wear and anti-friction properties in titanium alloy cutting. To solve the problem, this paper attempts to explore the wear resistance and friction performance of micro-round-pit (MRP) textures in different distributions. Specifically, the DEFORM-3D finite-element method (FEM) software was adopted to simulate and analyse the effects of these distributions on the ball-end milling of titanium alloy. The simulation shows that the milling force was minimized by the distribution ABC (150-175-200). This result was then confirmed by a milling experiment. In...
全文获取路径: 国际维也纳多瑙河亚德里亚自动化与制造协会  (合作)
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关键词翻译
关键词翻译
  • cutting 伐木
  • texture 结构
  • texturing 织纹状饰面
  • simulate 模拟
  • existing 现行
  • micro 
  • software 软件
  • distribution 分布
  • tackle 滑车组
  • through 经过