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径向跳动对球面铣刀切削力的影响研究 被引量:1

Study on Effects of Cutter Runout on the Cutting Force in Ball-End Milling
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摘要 研究了径向跳动对刀齿的实际切削半径、切屑形状以及切屑厚度的影响机理。研究了各刀齿沿刀刃螺旋线的切削微元实际切削半径的数学表示和变化规律,实际切削半径的变化改变了刀齿的切削路径,使各刀齿上切屑形状分布不均匀。建立了三维切削下切屑厚度的数学表示,提出了递延累加切屑厚度计算算法。实验验证表明,计算的切削力与测量结果能很好地吻合,瞬时切削力、切削力峰值、平均切削力的预测精度达到85%以上。 The mechanism of impacts of cutter runout on the pratical cutting radius, chip form and chip thickness was studied and analyzed. A mathematical expression and the effective rules of practical cutting radii of the cutting elements along the helix cutting edge were studied. The variable practical cutting radius changed the cutting path of the cutter, thus caused unbalanced chip form of each cutting edge. The calculation formula of the chip thickness was established under 3D cutting process and an uncontinuable adding up calculation algorithm of the chip thickness was proposed. At last, this cutting force model was verified through several cutting tests under different cutting conditions. The test results show that predicted cutting forces fit close to the measured ones, and the predicted accuracy of the instantaneous cutting forces, peak cutting force and average cutting force are increased to 85%.
作者 马万太 樊树海 楼佩煌
机构地区 南京航空航天大学
出处 《中国机械工程》 EI CAS CSCD 北大核心 2005年第24期2171-2175,2202,共6页 China Mechanical Engineering
基金 国家863高技术研究发展计划资助项目(863511080145)
关键词 球面铣刀 径向跳动 切削力 切屑厚度 ball-end mill radial runout cutting force chip thickness
分类号 TG714 [金属学及工艺—刀具与模具]
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参考文献8

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同被引文献10

  • 1池宪,樊宁,高子辉,锁小红.机床主轴纯径向跳动的轴心轨迹分析[J].机械工程与自动化,2006(2):7-10. 被引量:7
  • 2J Chae, S S Park, T Feiheit. Investigation of micro-cutting operations [J]. International Journal of Machine Tools & Manufacture ,2006, 46:313 - 332.
  • 3X Liu, R E Devor, S G Kapoor. An analytical model for the prediction of minimum chip thickness in micromachining [J]. Transactions of the ASME,2006,128:474 - 480.
  • 4Anon. Total indicated runout and its impact on combined board quality [ J]. ATPPI Technical Information Papers, 2002, 190 - 192.
  • 5H Wang, S To, C Y CHAN. A theoretical and experimental investigation of the tool-tip vibration and its influence upon surface generation in single-point diamond turning [J].In- ternational Journal of Machine Tools & Manufacture, 2010, 50 : 241 - 252.
  • 6T L Schmitz, M A Davies, M D Kennedy. Tool point fre- quency response prediction for high-speed machining by RC- SA [ J]. Transactions of ASME, 2001, 123:700-707.
  • 7J Zhang, T Schmitz, W H Zhao,et al. Receptance coupling for tool point dynamics prediction on machine tools [ J ]. Chinese Journal of Mechanical Engineering. 2011, 24 (3) : 340 - 345.
  • 8S Filiz, C H Cheng, K B Powell, et al. An improved tool- holder model for RCSA tool-pint frequency response predic- tion [J]. Precision Engineering,2009, 33:26-36.
  • 9王利军,贾振元,卢晓红,贾德峰,吕元哲.立式微型数控铣床整机结构的有限元分析[J].组合机床与自动化加工技术,2009(12):12-16. 被引量:22
  • 10高成秀,贾振元,卢晓红.微铣加工关键技术研究现状与发展[J].组合机床与自动化加工技术,2012(1):107-112. 被引量:5

引证文献1

中国机械工程
2005年 第24期

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