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铣削参数对航空铝合金薄壁件表面粗糙度的影响 被引量:2

Effect of Milling Parameters on Surface Roughness of Aeronautical Aluminum Alloy Thin-wall Part
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摘要 以7050-T7451航空铝合金薄壁件为试验对象,运用单因素实验方法对其进行高速铣削试验,研究了铣削速度、每齿进给量、铣削深度和铣削宽度四个铣削参数与薄壁件表面粗糙度之间的变化规律。研究结果表明:铣削速度对表面粗糙度的影响很小,基本可忽略;表面粗糙度随每齿进给量和铣削深度的增加而增大;铣削宽度增大时,表面粗糙度先增大后减小,铣削宽度超过5 mm后,表面粗糙度基本不变,对于保证加工质量具有重要意义。 The high-speed milling experiments were made based on 7050-37541 aluminum alloy thin-wall part by single factor test. The relationship between the surface roughness and milling parameters, including the milling speed, feed rate, milling depth and milling width, was investigated. The results indicate that the milling speed has the least influence on surface roughness, so it could hardly be considered on the whole. The surface roughness increases with the increasing of feed rate and milling depth. The surface roughness firstly increases and then decreases with the increasing of milling width, and almost remains the same when the milling width is more than five millimeters, which is of great significance to improve the machining quality.
作者 唐克岩
机构地区 成都理工大学工程技术学院
出处 《硬质合金》 CAS 2012年第1期42-45,共4页 Cemented Carbides
基金 成都理工大学工程技术学院科研发展基金(C122010010)
关键词 航空材料 高速铣削 铝合金 表面粗糙度 薄壁件 aeronautical material high-speed milling aluminum alloy surface roughness thin-wall part
分类号 TG54 [金属学及工艺—金属切削加工及机床]
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共引文献89

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  • 1赵振业.高强度合金抗疲劳应用技术研究与发展[J].中国工程科学,2005,7(3):90-94. 被引量:48
  • 2M. Dixit,R.S. Mishra,K.K. Sankaran.Structure–property correlations in Al 7050 and Al 7055 high-strength aluminum alloys[J]. Materials Science & Engineering A . 2007 (1)
  • 3I.S. Jawahir,E. Brinksmeier,R. M’Saoubi,D.K. Aspinwall,J.C. Outeiro,D. Meyer,D. Umbrello,A.D. Jayal.Surface integrity in material removal processes: Recent advances[J]. CIRP Annals - Manufacturing Technology . 2011 (2)
  • 4M. Suraratchai,J. Limido,C. Mabru,R. Chieragatti.Modelling the influence of machined surface roughness on the fatigue life of aluminium alloy[J]. International Journal of Fatigue . 2008 (12)
  • 5Sigmund Kyrre ?s,Bj?rn Skallerud,B?rd Wathne Tveiten.Surface roughness characterization for fatigue life predictions using finite element analysis[J]. International Journal of Fatigue . 2008 (12)
  • 6B. Denkena,D. Boehnke,L. León.Machining induced residual stress in structural aluminum parts[J]. Production Engineering . 2008 (3)
  • 7D. Arola,C.L. Williams.Estimating the fatigue stress concentration factor of machined surfaces[J]. International Journal of Fatigue . 2002 (9)
  • 8Balkrishna Rao,Yung C Shin.Analysis on high-speed face-milling of 7075-T6 aluminum using carbide and diamond cutters[J]. International Journal of Machine Tools and Manufacture . 2001 (12)
  • 9I. N. Fridlyander.Aluminum Alloys in Aircraft in the Periods of 1970 – 2000 and 2001 – 2015[J]. Metal Science and Heat Treatment . 2001 (1-2)
  • 10T.S Srivatsan,S Anand,S Sriram,V.K Vasudevan.The high-cycle fatigue and fracture behavior of aluminum alloy 7055[J]. Materials Science & Engineering A . 2000 (1)

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