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考虑材料损伤演化的钛合金切削过程仿真及试验研究 被引量:3

Simulation and Experimental Study on the Cutting Process of Titanium Alloy Considering Damage Evolution
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摘要 为更精确地模拟钛合金的切削过程,将断裂力学的裂纹扩展能量理论作为材料损伤演化准则引入切削仿真,考虑刀具切屑接触面上的极限剪切应力随摩擦系数变化、摩擦系数随温度变化,建立了钛合金Ti-6Al-4V二维正交热力耦合切削仿真模型。通过钛合金车削试验及切屑金相观察试验对有限元模型进行验证,结果表明仿真的切削力、锯齿切屑形态与实验结果吻合程度较高。以该有限元模型为基础,分析了已加工表面的残余应力,预测了前角对切屑卷曲与损伤程度、剪切角、锯齿形状、刀具温度的影响。 A two-dimensional orthogonal thermo-mechanical coupling a cutting model of Ti-6Al-4V is developed to precisely model the cutting process of titanium alloy. The crack extending energy theory in fracture mechanics is integrated into cutting simulation to act as material damage evolution criteria. The ultimate shear stress in tool and chip interface is considered to change with coefficient of friction, in which the coefficient of friction is also treated to a function of temperature. The finite element model is validated through turning experiment and chip metallographic observation experiment. The results show that simulation cutting force and segmented chip morphology well coincide with the experimental. The machining surface residual stress is analyzed. The effect of rake angle on chip damage degree, morphology, shear angle, tool temperature is predicted based on the validated model.
作者 付杰 王伏林 杨旭静 朱克忆
机构地区 湖南大学机械与运载工程学院
出处 《机械科学与技术》 CSCD 北大核心 2014年第8期1245-1250,共6页 Mechanical Science and Technology for Aerospace Engineering
基金 国家自然科学基金项目(51075136) 湖南省自然科学基金项目(14JJ7094)资助
关键词 钛合金 材料损伤演化 极限剪切应力 锯齿切屑 车削试验 切削仿真 ABAQUS computer simulation constitutive models cutting simulation cutting damage evolution experiments finite element method FORTRAN ( programming languages friction morphology residual stresses segmented chip temperature experiment ultimate shear stress velocity ) fracture mechanics titanium alloys turning
分类号 TG506.7 [金属学及工艺—金属切削加工及机床] TH123 [机械工程—机械设计及理论]
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参考文献10

  • 1杜东兴,刘道新,孙瑜峰,李世平.航空用TC18钛合金的车削加工工艺技术研究[J].机械科学与技术,2011,30(11):1805-1810. 被引量:13
  • 2Calamaz M,Coupard D,Girot F.A new material model for 2D simulation of serrated chip formation when machining titanium alloy Ti-6Al-4V[J].International Journal of Machine Tools&Manufacture,2008,48:275-288.
  • 3Karpat Y.Temperature dependent flow softening of titanium alloy Ti6Al4V:An investigation using finite element simulation of machining[J].Journal of Materials Processing Technology,2011,211:737-749.
  • 4Zhang Y C,Mabrouki T,Nelias D,et al.Chip formation in orthogonal cutting considering interface limiting shear stress and damage evolution based on fracture energy approach[J].Finite Elements in Analysis and Design,2011,47:850-863.
  • 5杨勇,方强,柯映林,董辉跃.基于有限元模拟的钛合金锯齿状切屑形成机理[J].浙江大学学报(工学版),2008,42(6):1010-1014. 被引量:12
  • 6Subbiah S,Melkote S N.Effect of finite edge radius on ductile fracture ahead of the cutting tool edge in microcutting of Al2024-T3[J].Materials Science and Engineering,2008,A474(1/2):283-300.
  • 7Johnson G R,Cook W H.A constitutive model and data for materials subjected to large strains,high strain rates and high temperature[C]//Seventh International Symposium on Ballistic,Hague,Netherlands,1983:541-547.
  • 8Lesuer D R.Experimental investigation of material models for Ti-6Al-4V titanium and 2024-T3 aluminum[R].U.S.Department of Transportation,Federal Aviation Administration,Washington D C,2000.
  • 9Zorev N N.Inter-relationship between shear processes occurring along tool face and on shear plane in metal cutting[C]//International Research in Production Engineering,New York:ASME,1963:42-49.
  • 10Range K,Hou Z B.On thermoplastic shear instability in the machining of a titanium alloy(Ti-6Al-4V)[J].Metallurgical and Materials Transactions,2002,A33:2995-3010.

二级参考文献23

  • 1杨勇,柯映林,董辉跃.高速切削有限元模拟技术研究[J].航空学报,2006,27(3):531-535. 被引量:48
  • 2Nabhani F. Machining of aerospace titanium alloys [ J ]. Robot- ics and Computer Integrated Manufacturing, 2001, 17:99 -106.
  • 3Novovic D, et al. The effect of machined topography and integrity on fatigue life[ J ]. International Journal of Machine Tools & Manufacture, 2004, 44 : 125 - 134.
  • 4Che-Haron C H. Tool life and surface integrity in turning titani- um alloy [ J ]. Journal of Materials Processing Technology, 2001, 118:231 -237.
  • 5Nabhandi F. Wear mechanisms of ultra-hard cutting tools materi- als[J]. Journal of Materials Processing Technology, 2001, 115:402 -412.
  • 6Ezugwu E O, Bonney J, Yamane Y. An overview of the machin- ability of aeroengine alloys [ J ]. Journal of Materials Process- ing Technology, 2003, 134 (2) : 233 - 253.
  • 7Calamaz M, et al. Toward a better understanding of tool wear effect through a comparison between experiments and SPH nu- merical modelling of machining hard materials[J]. Internation- al Journal of Refractory Metals & Hard Materials, 2009, 27 : 595 - 604.
  • 8Abdel-Aal H A, et al. Influence of thermal conductivity on wear when machining titanium alloys [ J ]. Triboiogy International, 2009, 42 : 359 - 372.
  • 9Davim J P. Design of optimization of cutting parameters for turn- ing metal matrix composite based on the orthngonal arrays [ J ]. Journal of Materials Processing Technology, 2003, 132 : 340 - 344.
  • 10赵选民等.数理统计(第2版)[M].北京:科学出版社,2003.

共引文献23

同被引文献10

引证文献3

二级引证文献6

机械科学与技术
2014年 第8期

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