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圆形等通道转角挤压过程三维数值模拟 被引量:2

3D numerical simulation of circular equal-channel angular pressing process
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摘要 基于网格重划分技术,采用有限元软件Marc对等通道转角挤压(Equal Channel Angular Pressing,ECAP)进行数值模拟,得到了模具转角φ=90°、ψ=0°以及不同摩擦条件下圆形试样ECAP变形过程的网格、载荷变化以及等效应变分布规律。结果表明:由于剪切变形和外摩擦作用,底部网格产生畸变,出口端部形成半球形;圆形ECAP过程经历开始变形、稳定变形和终了三个阶段,在开始变形阶段载荷急剧增加,进入稳定阶段后变化平稳,但由于摩擦和加工硬化作用载荷继续增加;与无摩擦情况相比,摩擦的存在增加了试样与模具接触的接触面积、载荷值以及变形的不均匀性。此外,试样中心较表面变形更均匀,而中间截面相比头尾变形较为均匀。 Based on re-meshing technology, by use of FE model Marc, the numerical simulation of equal- channel angular pressing has been executed. As a result, the mesh, change of load and distribution of equivalent strain have been gained under Ф =90°,=0° and different friction conditions. It shows that the mesh has been distorted at the bottom with semisphere exit because of shearing deformation and external friction. Three stages including initial deformation, steady deformation and finial deformation in the circular ECAP have been occurred. The load increases greatly at the initial deformation stage while the load continuously increases slowly in the steady stage from friction and work hardening. Furthermore, the friction increases the contact area between sample and die, load and inhomogeneity of deformation. In addition, the deformation is more uniform at the center and middle section comparing with those of surface and head and tail of sample.
出处 《锻压装备与制造技术》 2012年第1期72-75,共4页 China Metalforming Equipment & Manufacturing Technology
基金 秦皇岛市科技计划项目(201001A006)
关键词 机械制造 ECAP 圆型等通道 数值模拟 Equal channel angular pressing Circular equal-channel Numerical simulation
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  • 1V.M.Segal, V.I.Reznikov, A.E.Drobyshevskiy, etal.Plastic working of metals by simple shear [J].Russian Metallugy, 1981,1:99-105.
  • 2Z.Y.Liu,G.X.Liang,E.D.Wang,et al.The effect of cumulative large plastic strain on the structure and properties of a Cu-Zn alloy [J], Materials Science and Engineering,A242(1998):137-140.
  • 3Valiev R Z,Krasilnikov N A,Tsenev N K.Plastic deformaiton of alloys with submicro-grained structure [J].Mater Sci Eng, 1991,137: 35-40.
  • 4Kim W J,An C W, et al.Mechanieal properties and mierostructures of an AZ61 Mg alloy produced by equal channel angular pressing [J].Scr Mater, 2007,47(1):39-44.
  • 5Furuno K, Akamastu H, Oh ishi Ket al.Microstructural development -in equal-channel angular pressing using a 60° die [J].Acta Mater, 2004,52(9):2497-2507.
  • 6Berbon P B, Furukawa M, Horita Z, et al.Influence of pressing speed on microstructual development in equal-channel angular pressing [J].Metall Mater Trans A, 1999,30(8): 1989-1997.
  • 7Su C W,Chua B W,Lu L,et al. Properties of severe plastically defo- r med Mg alloys [J].Mater Sci Eng A, 2005,402(1-2):163-169.
  • 8徐成兵.铝合金拉杆热挤压过程数值模拟[J].锻压装备与制造技术,2010,45(3):81-83. 被引量:3
  • 9齐广霞,梅瑞斌,包立.In718合金反挤压成形数值模拟[J].锻压装备与制造技术,2005,40(6):63-66. 被引量:6
  • 10Seung Chae Yoon,Hyoung Seop Kim. Finite element analysis of the effect of the inner corner angle in equal channel angular pressing [J].Materials Science and Engineering, 2008, A490: 438- 444.

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