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精密干式硬态车削淬硬工具钢时表面粗糙度的参数优化 被引量:3

Parameters optimization on surface roughness in finish dry hard turning hardened tool steel
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摘要 使用PCBN刀具对不同淬硬状态工具钢Cr12MoV进行了精密干式硬态车削试验,运用正交实验法分析了切削速度、试件硬度、刀具前角、切削深度4个因素间的交互作用,并得到了最优车削参数。试验表明:影响表面粗糙度最显著的因素是切削速度与淬火硬度,切削深度影响最小。 An experiment investigation of finish dry hard turning various hardened tool steel Cr12MoV was conducted with the PCBN cutting tool. The interaction effects of cutting speed, hardness of workpiece, rake angle of the tool and depth of cut were analyzed by using orthogonal experimental method. Then the optimum cutting parameters were obtained. The experimental results indicated that the cutting speed and hardness have the most significant influence on the surface roughness. The effect of the depth of cut on the surface roughness is the least.
作者 唐林虎 黄建龙 高成秀 罗文翠
机构地区 兰州工业高等专科学校机械工程系 兰州理工大学机电工程学院
出处 《制造技术与机床》 CSCD 北大核心 2012年第1期112-114,共3页 Manufacturing Technology & Machine Tool
关键词 精密干式硬态车削 淬硬工具钢 正交实验法 表面粗糙度 Finish Dry Hard Turning (FDI-IT) Hardened Tool Steel Orthogonal Experimental Method Surface Roughness
分类号 TG84 [金属学及工艺—公差测量技术]
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参考文献9

二级参考文献21

  • 1Tonshoff H K, Arendt C, Amor R B. Cutting of hardened steel[J]. CIRP Annals, 2000,49(2):547-565.
  • 2Liu C R, Mittal S. Single-step super finishing using hard machining resulting in superior surface integrity[J]. Journal of Manufacturing Syst., 1995, 14(2) :124-133.
  • 3Theile J D, Shreyes N M. Effect of cutting-edge geometry and workpiece hardness on surface residual stresses in finish hard turning of AISI 52100 steel [J]. Transactions of the ASME, Journal of Manufacturing Science and Engineering, 2000, 122(4) :642-649.
  • 4Ozel T. Modeling of hard part machining: effect of insert edge preparation in CBN cutting tools [ J ]. Journal of Material Processing Technology, 2003, 141 (2) : 284- 293.
  • 5Fang N, Wu Q. The effects of chamfered and honed tool edge geometry in machining of three aluminum alloys [ J ]. International Journal of Machine Tools and Manufacture, 2005, 45(10) : 1 178- 1 187.
  • 6Guo Y B, Wen Q. A hybrid modeling approach to investigate chip morphology transition with the stagnation effect by cutting edge geometry[J]. Transactions of the North American Manufacturing Research Institute of SME-Papers Presented at NAMRC, 2005(33): 469-476.
  • 7Liu X L, Pen H M, Chen T. Effect of different edge preparation on high speed turning hardened steel[J]. Process Materials Science Forum, 2006(532--533) : 412-415.
  • 8Kurt A, Seker U. The effect of chamfer angle of polycrystalline cubic boron nitride cutting tool on the cutting forces and the tool stresses in finishing hard turning of AISI 52100 steel[J]. Materials and Design, 2005, 26(4) :351- 356.
  • 9Zhou J M, Water H, Andersson M, et al. Effect of chamfer angle on wear of PCBN cutting tool[J], International Journal of Machine Tools and Manufacture, 2003, 43 (3):301- 305.
  • 10SHAW M C, VYAS A. The Mechanism of Chip Formation with Hard Turning Steel[ J]. Annals of the C1RP, 1998,47 (1) :77 -82.

共引文献65

同被引文献19

  • 1王丽君,苗彬,孟先新.Cr12MoV钢不同热处理条件下的硬度和金相组织分析[J].模具工业,2005,31(9):52-56. 被引量:22
  • 2刘战强,万熠,周军.高速切削刀具材料及其应用[J].机械工程材料,2006,30(5):1-4. 被引量:30
  • 3中国科学院数学研究所数理统计组.正交实验法[M].北京:人民教育出版社,1975.
  • 4Klocke F, Brinksmeier E, Weinert K. Capability profile of hard cutting and grinding processes [ J ]. Annals of the CIRP, 2005,54 (2) :552-580.
  • 5El-Wardany T I, Kishawy H A, Elbestawi M A. Surface Integrity of Die Material in High Speed Hard Machining, Part 1 : Micrographical Analysis[ J ]. Journal of Manufacturing Science and Engineering, 2000,122 (4) :620-631.
  • 6El-Wardany T I, Kishawy H A, Elbestawi M A. Surface Integrity of Die Material in High Speed Hard Machining, Part 2 : Microhardness Variations and Residual Stresses[ J]. Journal of Manufacturing Sci- ence and Engineering, 2000,122(4) :632-641.
  • 7Tang L, Huang J, Xie L. Cutting tool edge temperature in dry hard orthogonal eutting AISI D2 tool steel with CBN tool[ J ]. Advanced Materials Research, 2010 ( 6 ) : 169-173.
  • 8Tang L, Huang J, Xie L. Finite element modeling and simulation in dry hard orthogonal cutting AISI D2 tool steel with CBN cutting tool [ J]. International Journal of Advanced Manufacturing Technology, 2011,53(1/2) :1167-1181.
  • 9Tongchao Ding,Song Zhang,Yuanwei Wang,Xiaoli Zhu.Empirical models and optimal cutting parameters for cutting forces and surface roughness in hard milling of AISI H13 steel[J].The International Journal of Advanced Manufacturing Technology (-).2010(1-4)
  • 10Tang Lin Hu,Huang Jian Long,Xie Li Ming,Luo Wen Cui.Cutting Tool Edge Temperature in Dry Hard Orthogonal Cutting AISI D2 Tool Steel with CBN Tool[J].Advanced Materials Research.2010(129)

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制造技术与机床
2012年 第1期

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