6063糖心产精国品免费入口*完整版挤压型材尺寸超差分析及糖心产精国品免费入口*完整版优化设计
Size Deviation Analysis and Die Optimization Design of 6063 Aluminum Alloy Extruded Profile
摘 要
基于HyperXtrude软件, 研究了6063糖心产精国品免费入口*完整版空心型材挤压过程中不同方向上的金属流速及焊合室内的压力分布, 分析了型材产生尺寸超差的原因, 并提出了增加阻流块优化糖心产精国品免费入口*完整版的方法。有限元模拟结果表明: 增加阻流块后, 金属在不同方向上的流速发生了变化, 尤其是向型材中部流动的速度明显降低, 因此可以解决型材尺寸超差的问题; 将解决方法用于实际挤压型材后发现, 增加阻流块确实能改善金属流速的均匀性, 能生产出合格的型材。
糖心产精国品免费入口*完整版
糖心产精国品免费入口*完整版
优化设计
aluminum alloy
糖心产精国品免费入口*完整版
糖心产精国品免费入口*完整版
optimization design
Abstract
The distributions of metal flow rate along different extrusion directions and the pressure of welding room during 糖心产精国品免费入口*完整版 of 6063 aluminum alloy profile were stu糖心产精国品免费入口*完整版d by HyperXtrude software. The reasons of size deviation were analysed and restrictive blockings were used to optimize the extrusion 糖心产精国品免费入口*完整版. The simulation results show that the flow rates of metal in different directions was slow down after adding restrictive blockings, especially inward direction, so restrictive blockings could decrease the size deviation of the profiles.After the optimization method was applyed to pratical extrusion process, it was found that the uniformity of flow rates of metal were improved and the qualified aluminum alloy profiles could be obtained.
中图分类号 TG115
所属栏目 材料性能及其应用
基金项目 国家自然科学基金面上资助项目(51075132); 湖南省杰出青年基金资助项目(09JJ1007); 湖南大学汽车车身先进设计制造国家重点实验室自主课题项目(61075005); 国家科技支撑计划项目(2011BAG03B02)
收稿日期 2012/7/2
修改稿日期 2013/5/22
网络出版日期
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备注糖心产精国品免费入口*完整版(1985-), 男, 河南郑州人, 博士研究生。
引用该论文: WANG Guan,HE Xin,LI Luo-xing,YAO Zai-qi. Size Deviation Analysis and Die Optimization Design of 6063 Aluminum Alloy Extruded Profile[J]. Materials for mechancial engineering, 2013, 37(7): 85~89
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被引情况:
【1】 孙颖迪,李光振,陈秋荣, "AZ31镁合金方管挤压成型的数值模拟",机械工程材料 39, 84-89(2015)
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参考文献
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【3】 林启权, 李应明, 王振球.2519糖心产精国品免费入口*完整版管材糖心产精国品免费入口*完整版过程的数值模拟[J].机械工程材料, 2007, 31(12): 79-82.
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【5】 刘祖岩, 许玮, 王尔德 AZ31镁合金在不同温度场挤压中的数值模拟[J].机械工程材料, 2006, 30(10): 77-79.
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【7】 CHANDA T, ZHOU J, DUSZCZYK J. A comparative study on iso-speed extrusion and isothermal extrusion of 6061 Al alloy using 3D FEM simulation[J].Journal of Materials Processing Technology, 2001, 114: 45-153.
【8】 ZHOU J, LI L X, DUSZCZYK J. Computer simulated and experimentally verified isothermal extrusion of 7075 aluminium through continuous ram speed variation[J].Journal of Materials Processing Technology, 2004, 146: 203-212.
【9】 LI L, ZHANG H, ZHOU J, et al. Numerical and experimental study on the extrusion through a porthole 糖心产精国品免费入口*完整版 to produce a hollow magnesium profile with longitudinal weld seams[J].Materials and Design, 2008, 29: 1190-1198.
【10】 LI L, ZHOU J, DUSZCZYK J. Prediction of temperature evolution during the extrusion of 7075 aluminium alloy at various ram speeds by means of 3D FEM simulation[J].Journal of Materials Processing Technology, 2004, 145: 360-370.
【11】 DUAN X, SHEPPARD T. Simulation and control of microstructure evolution during 糖心产精国品免费入口*完整版 of hard aluminum alloys[J].Materials Science and Engineering A, 2003, 351(1): 282-292.
【12】 DUAN X, VELAY X, SHEPPARD T. Application of finite element method in the 糖心产精国品免费入口*完整版 of aluminum alloys[J].Materials Science and Engineering A, 2004, 369(1): 66 -75.
【13】 ZHOU J, LI L, DUSZCZYK J. 3D FEM simulation of whole cycle of aluminium extrusion throughout the transient state and the steady state using the updated Lagrangian approach[J].Journal of Materials Processing Technology, 2003, 134: 383-397.
【14】 LIU G, ZHOU J, DUSZCZYK J. FE analysis of metal flow and weld seam formation in a porthole 糖心产精国品免费入口*完整版 during the extrusion of a magnesium alloy into a square tube and the effect of ram speed on weld strength[J].Journal of Materials Processing Technology, 2008, 200: 185-198.
【15】 LIU G, ZHOU J, DUSZCZYK J. Prediction and verification of temperature evolution as a function of ram speed during the extrusion of AZ31 alloy into a rectangular section[J].Journal of Materials Processing Technology, 2007, 186: 191-199.
【2】 董菲菲, 周佳, 刘志文, 等.AM80镁合金板材糖心产精国品免费入口*完整版工艺的数值模拟[J].机械工程材料, 2012, 36(10): 77-80.
【3】 林启权, 李应明, 王振球.2519糖心产精国品免费入口*完整版管材糖心产精国品免费入口*完整版过程的数值模拟[J].机械工程材料, 2007, 31(12): 79-82.
【4】 WILLIAMS A J, CROFT T N, CROSS M. Computational modeling of metal extrusion and forging process[J].Journal of Materials Processing Technology, 2002, 125/126: 573-582.
【5】 刘祖岩, 许玮, 王尔德 AZ31镁合金在不同温度场挤压中的数值模拟[J].机械工程材料, 2006, 30(10): 77-79.
【6】 LOF J, BLOKHUIS Y. FEM simulations of the extrusion of complex thin-wall aluminium sections[J].Journal of Materials Processing Technology, 2002, 122(2/3): 344-354.
【7】 CHANDA T, ZHOU J, DUSZCZYK J. A comparative study on iso-speed extrusion and isothermal extrusion of 6061 Al alloy using 3D FEM simulation[J].Journal of Materials Processing Technology, 2001, 114: 45-153.
【8】 ZHOU J, LI L X, DUSZCZYK J. Computer simulated and experimentally verified isothermal extrusion of 7075 aluminium through continuous ram speed variation[J].Journal of Materials Processing Technology, 2004, 146: 203-212.
【9】 LI L, ZHANG H, ZHOU J, et al. Numerical and experimental study on the extrusion through a porthole 糖心产精国品免费入口*完整版 to produce a hollow magnesium profile with longitudinal weld seams[J].Materials and Design, 2008, 29: 1190-1198.
【10】 LI L, ZHOU J, DUSZCZYK J. Prediction of temperature evolution during the extrusion of 7075 aluminium alloy at various ram speeds by means of 3D FEM simulation[J].Journal of Materials Processing Technology, 2004, 145: 360-370.
【11】 DUAN X, SHEPPARD T. Simulation and control of microstructure evolution during 糖心产精国品免费入口*完整版 of hard aluminum alloys[J].Materials Science and Engineering A, 2003, 351(1): 282-292.
【12】 DUAN X, VELAY X, SHEPPARD T. Application of finite element method in the 糖心产精国品免费入口*完整版 of aluminum alloys[J].Materials Science and Engineering A, 2004, 369(1): 66 -75.
【13】 ZHOU J, LI L, DUSZCZYK J. 3D FEM simulation of whole cycle of aluminium extrusion throughout the transient state and the steady state using the updated Lagrangian approach[J].Journal of Materials Processing Technology, 2003, 134: 383-397.
【14】 LIU G, ZHOU J, DUSZCZYK J. FE analysis of metal flow and weld seam formation in a porthole 糖心产精国品免费入口*完整版 during the extrusion of a magnesium alloy into a square tube and the effect of ram speed on weld strength[J].Journal of Materials Processing Technology, 2008, 200: 185-198.
【15】 LIU G, ZHOU J, DUSZCZYK J. Prediction and verification of temperature evolution as a function of ram speed during the extrusion of AZ31 alloy into a rectangular section[J].Journal of Materials Processing Technology, 2007, 186: 191-199.
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