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ECAPT过程中载荷变化规律的数值模拟 被引量:1

The FEM Numerical Simulation of Loads in ECAPT
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摘要 为了掌握纯铝在ECAPT过程中的力学变化规律,利用刚塑性有限元技术对纯铝1100的ECAPT变形行为进行数值模拟,重点分析了载荷在挤压过程中的变化规律及产生变化的原因。结果表明:ECAPT过程大致分为载荷骤升、2次小幅度升高和载荷下降4个阶段;载荷峰值随着摩擦因数的增大迅速增大,应采取有效的润滑措施减小摩擦从而降低载荷峰值,提高模具寿命;随着摩擦因数的增大,载荷在达到各阶段峰值后下降趋势越来越明显。 In order to master the variation regularity of mechanics in the ECAPT process, the rigid-plastic FEM has been used in the numerical simulation of ECAPT of aluminum 1100. The load variation and the reasons were mainly investigated. The results show that ECAPT of aluminum 1100 can be classified into four phases in the process: the load increases fast, the load increases slowly two times, the load declines. Peak value of load will increase swiftly with the friction coefficient increasing. An effective lubricating measure should be adopted to reduce the peak value and prolong the mould life. With friction coef- ficient increasing the load will decline obviously when it reaches the peak value.
作者 张翔 李萍 王晓溪 薛克敏 吴战立
机构地区 合肥工业大学材料科学与工程学院
出处 《精密成形工程》 2010年第5期6-9,共4页 Journal of Netshape Forming Engineering
基金 国家自然科学基金(50875072) 霍英东教育基金会(121053) 安徽省优秀青年科技基金(10040606Y21)
关键词 大塑性变形 等径角挤压 挤扭 等径角挤扭 数值模拟 severe plastic deformation equal channel angular pressing twist extrusion equal channel angular pressing and torsion numerical simulation
分类号 TG376 [金属学及工艺—金属压力加工]
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参考文献12

  • 1VALIEV R Z,ESTRIN Y, HORITA Z,et al. Producing Bulk Uhrafine-Grained Materials by Severe Plastic Deformation[J]. JOM,2006,58(4) :33-39.
  • 2VALIEV R Z, ISLAMGALIEV R K, ALEXANDROVIV. Bulk Nanostructured Materials from Severe Plastic Deformation[J]. Progress in Materials Science, 2000,45:103-189.
  • 3VALIEV R Z. Structure and Mechanical Properties of Ultrafine-grained Metals[J]. Materials Science and Engineering, 1997, A234-236 : 59 - 66.
  • 4IWAHASH Y, HORITA Z, NEMOTO M,et al. The Process of Grain Refinement in Equal Channel Angular Pressing[J]. Acta mater, 1998,46 (9) : 3317-3331.
  • 5FURUKAWA M, HORITA Z, NEMOTO M, et al. Review Processing of Metals by Equal Channel Angular Pressing[J]. Journal of Materials Science, 2001, 36:2835-2843.
  • 6AKBARIMOUSAVI S A A. Influence of Strain Accumulation on Microstructure of Aluminum 1100 in the Twist Extrusion[J]. International Journal of Modern Physics B, 2008,22 (18/19) : 2858-- 2865.
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二级参考文献40

  • 1周明智,薛克敏,李萍.粉末多孔材料等径角挤压热力耦合有限元数值分析[J].中国有色金属学报,2006,16(9):1510-1516. 被引量:13
  • 2VALIEV R Z, ESTRIN Y, HORITA Z, et al. Producing Bulk Ultrafine-Grained Materials by Severe Plastic Deformation[J]. JOM, 2006,58 (4): 33-39.
  • 3SEGAL V M. Severe plastic deformation: simple shear versus pure shear[J]. Materials Science and Engineering, 2002, A338 :331-344.
  • 4BEYGELZIMER Y, VARYUKHIN V N, SYNKOV S G, et al. New schemes of large plastic deformations accumulating with using of hydroextrusion[J].Phys & Tech of High Pressure,1999(3) :109-111.
  • 5BEYGELZIMER Y, RESHETOV A, SYNKOV S, et al. Kinematics of metal flow during twist extrusion investigated with a new experimental method [J]. Journal of Materials Processing Technology, 2009,209 (7) : 3650-3656.
  • 6VALIEV R Z, ESTRIN Y, HORITA Z, et al. Producing Bulk Ultrafine-Grained Materials by Severe Plastic Deformation[J]. JOM, 2006.58(4):33-39.
  • 7VALIEV R Z, ISLAMGALIEV R K, ALEXANDROVIV. Bulk nanostructured materials from severe plastic deformation[J]. Progress in Materials Science, 2000. 45 : 103-189.
  • 8IWAHASH Y, HORITA Z, NEMOTO M, et al, The process of grain refinement in equal channel angular pressing[J]. Acta mater, 1998. 46(9): 3317-3331.
  • 9VALIEV R Z. Structure and mechanical properties of ultrafine-grained metals[J]. Materials Science and Engineering, 1997. A234-236 : 59-66.
  • 10FURUKAWA M, HORITA Z, NEMOTO M, et al. Review processing of metals by equal channel angular pressing[J]. Journal of Materials Science, 2001. 36: 2835-2843.

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精密成形工程
2010年 第5期

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