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基于ANSYS的内置式双减振镗杆参数优化 被引量:5

Parameters Optimization of Built-in Dual Vibration Absorption Boring Bar Based on ANSYS
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摘要 内置式双减振镗杆通过动力学模型分析得出设计参数后,在Pro/engineer中建立镗杆的实体模型,导入Ansys Workbench中进行参数优化。由于双减振镗杆的两个减振块之间的距离及前后两减振橡胶的弹性模量这三个参数,在镗杆动力学模型分析中不能得出最优值,因此在Ansys中把这三个变量设为参数进行优化。得到这三个参数的最优值后,对减振镗杆进行谐响应分析,得出优化后的镗杆径向振幅和切向振幅均比优化前减小,证明优化后的镗杆具有更好的减振性能,为双减振镗杆制造提供了依据。 Getting the design parameters by analyzing of built-in dual vibration absorption boring bar's dynamical model,the solid models of the boring bar can be built in Pro/engineer.Then these solid models were imported in Ansys Workbench for parameters optimization.The distance of the two vibration absorbers and elastic modulus of damping rubbers for both former and latter,the three parameters,which can not get by analyzing the dynamical model of boring bar,will be optimized in Ansys.After reaching the optimal values of the three parameters,harmonic response analysis of the boring bar was executed concluding that the radial amplitude and tangential amplitude of the optimized boring bar are smaller than those of the nooptimized boring bar and illustrating the optimized boring the has better vibration absorption performance.The bases of manufacturing the dual vibration absorption boring bar are given.
作者 李伟 罗红波 唐才学
机构地区 四川大学制造科学与工程学院
出处 《组合机床与自动化加工技术》 北大核心 2011年第11期43-46,共4页 Modular Machine Tool & Automatic Manufacturing Technique
关键词 双减振镗杆 ANSYS 参数优化 dual vibration absorption boring bar ANSYS parameters optimization
分类号 TH162 [机械工程—机械制造及自动化] TG5 [金属学及工艺—金属切削加工及机床]
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参考文献6

  • 1Lee DaiGil, Hwang HuiYun, Kim Jin Kook. Design and Manufacture of a Carbon Fiber Epoxy Rotating Boring Bar [J]. Composite Structures, 2003,60(1):115-124.
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二级参考文献2

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共引文献8

同被引文献46

  • 1贾方,易红,王兴松.金属切削颤振机理及其控制研究的新进展[J].中国制造业信息化(学术版),2006,35(1):67-71. 被引量:8
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  • 3Mei C. Active regenerative chatter suppression during boring manufacturing process[J]. Robotics and Computer- Integrated Manufacturing, 2005, 21(2): 153- 158.
  • 4Sathishkumar B, Sundaram K M. Experimental studies on impact of particle damping on surface roughness of ma- chined components in boring operation[J]. European Jour- nal of Scientific Research, 2012, 71(3): 327-337.
  • 5Daghini L, Archenti A, Nieoleseu C M. Design, imple- mentation and analysis of composite material dampers forturning operations[J]. International Journal of Mechanical Systems Science and Engineering, 2010, 2(2): 65-72.
  • 6Daghini L, Archenti A, Nicolescu C M. Design and dy- namic characterization of composite material dampers for parting-off tools[J]. Journal of Machine Engineering, 2010, 10(2): 57-70.
  • 7Brecher C, Weinzierl M. New approaches for an automa- ted production in ultra-precision machiningVJ:. The Inter- national Journal of Advanced Manufacturing Technology, 2009, 47(1): 47-52.
  • 8Rao M D. Recent applications of viscoelastic damping for noise control in automobiles and commercial airplanes[J]. Journal of Sound and Vibration, 2003, 262(3): 457-474.
  • 9Rashid A, Nicolescu C M. Design and implementation of tuned viscoelastic dampers for vibration control in milling [J]. International Journal of Machine Tools and Manufac- ture, 2008, 48(9): 1036-1053.
  • 10Rivin E I, Kang H. Enhancement of dynamic stability of cantilever tooling structures[J]. International Journal of Machine Tools and Manufacture, 1992, 32(4): 539-561.

引证文献5

二级引证文献12

组合机床与自动化加工技术
2011年 第11期

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