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TB10钛合金筒体反挤压成形的有限元模拟
英文标题:FEM simulation of backward extrusion process of TB10 titanium alloy cylinder
作者:程奔 叶文君 惠松骁  
单位:北京有色金属研究总院有色金属材料制备加工国家重点实验室  
关键词:TB10钛合金  反挤压  刚塑性有限元 
分类号:TG376
出版年,卷(期):页码:2009,34(5):162-166
摘要:
通过热模拟实验得到TB10钛合金的流动应力-应变曲线,应用DEFORM-3D软件建立材料模型。基于刚塑性有限元法,对TB10钛合金筒体反挤压过程进行数值模拟。分析了挤压过程的载荷-行程曲线,以及坯料内部的温度、速度、应力、应变等的分布,并对模拟过程中的误差来源做了分析。研究表明,在摩擦因子较小(m=0.1)的情况下,挤压载荷较为稳定,筒壁处金属流动速度均匀,但局部变形不均和应力集中可能在表面形成裂纹。
The flow stress-strain curves of TB10 titanium alloy were obtained using a hot simulated method,and the material model was built by the software DEFORM-3D.Based on rigid-plastic finite element method,backward extrusion process of TB10 titanium alloy cylinder was simulated numerically.The load-stroke curve of extrusion process and the distribution of temperature,velocity,stress and strain of the billet were analyzed.The error sources during simulation were also analyzed.The results show that the extrusion load is stable and the metal flow velocity of the cylindrical wall is equally distributed under a low friction factor condition(m=0.1).But in some local areas,uneven deformation and stress concentration may lead to cracks formation.
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参考文献:
[1]黄伯云,李成功,石力开,等.中国材料工程大典:第4卷有色金属材料工程(上)[M].北京:化学工业出版社,2006.
[2]张翥,惠松骁,刘伟.高强高韧TB10钛合金棒材研究[J].稀有金属,2006,30(2):221-225.
[3]谢建新,刘静安.金属挤压理论与技术[M].北京:冶金工业出版社,2001.
[4]亚历山德罗夫B K,阿诺什金HФ,古列维奇C M,等.钛合金半成品加工[M].宁兴龙,王国宏,译.北京:稀有金属材料与工程杂志社,1996.
[5]左旭,卫原平,陈军,等.金属体积成形三维数值仿真的研究进展[J].力学进展,1999,29(4):549-556.
[6]应富强,张更超,潘孝勇.金属塑性成形中的三维有限元模拟技术探讨[J].锻压技术,2004,29(2):1-5.
[7]Shin TJ,Lee Y H,YeomJ T,et al.Process opti mal designin non-isothermal backward extrusion of a titanium alloy bythe finite element method[J].Comput.Methods Appl.Mech.Eng.,2005,194:3838-3869.
[8]Zhang ZJ,SonI H,I m Y T,et al.Finite element analysis ofplastic deformation of CP-Ti by multi-pass equal channel an-gular extrusion at mediumhot-workingtemperature[J].Ma-terials Science and Engineering A,2007,447:134-141.
[9]Mousavi S A A A,Shahab A R,Mastoori M.Computationalstudy of Ti-6Al-4Vflow behaviors during the twist extrusionprocess[J].Materials&Design,2008,29(7):1316-1329.
[10]徐文臣,单德彬,陈宇,等.钛合金薄壁筒形件热旋成形技术研究[J].锻压技术,2008,33(3):56-59.
[11]何铁宁,李海峰.钛合金挤压三维热力耦合数值模拟技术研究[J].锻压技术,2006,31(5):63-67.
[12]李传民,王向丽,闫华军,等.DEFORM5.03金属成形有限元分析实例指导教程[M].北京:机械工业出版社,2007.
[13]Damodaran D,Shivpuri R,Esposito T,et al.Reducing thedi mensional variability of Ti64 extrudates by process modelingand die design[A].Weiss I,Srinivasan R,Bania P J,et al.Advances in the Science and Technology of Titanium AlloyProcessing[C].Warrendale:The Minerals,Metals&Mate-rials Society,1997.
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