Microstructure evolution model based on deformation mechanism of titanium alloy in hot forming 被引量：8

Microstructure evolution model based on deformation mechanism of titanium alloy in hot forming

下载PDF

导出

摘要 The microstructure evolution in hot forming will affect the mechanical properties of the formed product. However, the microstructure is sensitive to the process variables in deformation process of metals and alloys. A microstructure evolution model of a titanium alloy in hot forming, which included dislocation density rate and primary α phase grain size, was presented according to the deformation mechanism and driving forces, in which the effect of the dislocation density rate on the grain growth was studied firstly. Applying the model to the high temperature deformation process of a TC6 alloy with deformation temperature of 11331223K, strain rate of 0.0150s^-1 and height reduction of 30%, 40% and 50%, the material constants in the present model were calculated by the genetic algorithm(GA) based objective optimization techniques. The calculated results of a TC6 alloy are in good agreement with the experimental ones. The microstructure evolution in hot forming will affect the mechanical properties of the formed product. However, the microstructure is sensitive to the process variables in deformation process of metals and alloys. A microstructure evolution model of a titanium alloy in hot forming, which included dislocation density rate and primary a phase grain size, was presented according to the deformation mechanism and driving forces, in which the effect of the dislocation density rate on the grain growth was studied firstly. Applying the model to the high temperature deformation process of a TC6 alloy with deformation temperature of 1 133 - 1 223 K, strain rate of 0.01 -50 s^-1 and height reduction of 30%, 40% and 50%, the material constants in the present model were calculated by the genetic algorithm（GA） based objective optimization techniques. The calculated results of a TC6 alloy are in good agreement with the experimental ones.

作者李晓丽李淼泉

机构地区 School of Materials Science and Engineering

出处《中国有色金属学会会刊：英文版》 EI CSCD 2005年第4期749-753,共5页 Transactions of Nonferrous Metals Society of China

基金 Project(G2000067206) supported by the National Basic Research Programof China Project supported by Teaching andResearch Award Fundfor Outstanding Young Teachersin Higher EducationInstitutions of Ministry of Education Project(50475144) sup-ported by the National Natural Science Foundation of China Project( CX200305) supported by the Doctorate Creation Foundation ofNorthwestern Polytechnical University

关键词钛合金微结构变形装置锻造工艺 titanium alloy grain size dislocation density hot forming microstructure evolution model

分类号 TG301 [金属学及工艺—金属压力加工]

引文网络
相关文献

参考文献2

1熊爱明,黄维超,陈胜晖,林海,李淼泉.热处理制度对TC6钛合金显微组织的影响[J].中国有色金属学报,2002,12(z1):206-209. 被引量：22
2熊爱明,薛善坤,李淼泉.TC4钛合金高温变形时微观组织变化的计算[J].塑性工程学报,2002,9(1):14-16. 被引量：18

二级参考文献6

1[2]LI Miao-quan,LIU Xue-mei,XIONG Ai-ming,et al.Modelling of microstructure during hot working process by ANN [A].ICMAT'99 (Xi′an,China) [C],1999.1342-1345.
2[3]Sircar S,Humphreys F J.Modelling microstructural formation in two phase aluminium alloys after hot deformation [J].Mater Sci & Tech,1996,12:158-162.
3[4]Iwasaki H,Mori T.Microstructural evolution and plastic stability during superplastic flow in a 7475 aluminium alloy [J].Mater Sci & Tech,1999,15:180-184.
4[7]Dandre C A,Roberts S M,Evans R W,et al.Microstructural evolution of Inconel 718 during ingot breakdown:process modeling and validation [J].Mater Sci & Tech,2000,16:14-23.
5[8]ZHANG J M,GAO Z Y,ZHUANG J Y,et al.Grain growth model of IN718 during period after hot deformation [J].Journal of Materials Processing Technology,2000,101:25-30.
6[10]Huang Z,Cuddy J,Goel N,et al.Effect of heat treatment on the microstructure of a metastable titanium alloy [J].Journal of Materials Engineering and Performance,1994,3(4):560-566.

共引文献37

1宗影影,薛克敏,单德彬,吕炎.热处理对BT14钛合金显微组织和力学性能的影响[J].材料科学与工艺,2004,12(5):546-548. 被引量：9
2李晓丽,李淼泉,李锋,熊爱明.TC6合金等温锻造过程中晶粒尺寸的数值模拟[J].中国有色金属学报,2005,15(9):1332-1337. 被引量：12
3刘顺洪,彭善德,项凡.TC4钛合金激光搭接焊的研究[J].电焊机,2006,36(6):24-29. 被引量：16
4陈慧琴,林好转,郭灵,曹春晓.钛合金热变形机制及微观组织演变规律的研究进展[J].材料工程,2007,35(1):60-64. 被引量：31
5罗皎,李淼泉,潘洪泗,苏少博.热变形条件对Ti60合金微观组织的影响[J].中国有色金属学报,2007,17(1):53-58. 被引量：7
6杨宝付,刘黎明,杨俊,陈军.热处理工艺对双网篮Ti750合金组织性能的影响[J].航天制造技术,2007(6):31-34. 被引量：3
7罗皎,李淼泉,李宏.塑性变形时的微观组织模拟[J].材料导报,2008,22(3):102-106. 被引量：7
8侯会喜.钛合金锻造模拟成形技术发展现状[J].长沙航空职业技术学院学报,2008,8(1):55-58. 被引量：2
9张会,张昌明,姚泽坤,冯小明,郭从盛.TC11钛合金叶片等温校正工艺研究[J].特种铸造及有色合金,2008,28(6):469-471. 被引量：2
10李惠曲,东赟鹏,王淑云,陈由红,孙兴,姜涛.TC6钛合金变形及热处理组织性能研究[J].铸造技术,2009,30(8):995-997. 被引量：11

同被引文献48

1熊爱明,黄维超,陈胜晖,林海,李淼泉.热处理制度对TC6钛合金显微组织的影响[J].中国有色金属学报,2002,12(z1):206-209. 被引量：22
2Yu, Weixin, Li, Miaoquan, Luo, Jiao.Variation effect of strain rate on microstructure in isothermal compression of Ti-6Al-4V alloy[J].Rare Metals,2012,31(1):7-11. 被引量：6
3LIMiaoquan,XIONGAiming,CHENGShenghui,HUANGWeichao,LIYuanchun,LINHai.Effects of process parameters on the microstructure during the hot compression of a TC6 titanium alloy[J].Rare Metals,2004,23(3):263-268. 被引量：5
4高涛,杨合,刘郁丽,刘君.工艺参数对钛合金叶片精锻中微观组织的影响(英文)[J].稀有金属材料与工程,2005,34(5):781-785. 被引量：4
5王清,李中华,孙东立,武高辉.TC4钛合金的热变形行为及其影响因素[J].材料热处理学报,2005,26(4):56-59. 被引量：36
6李晓丽,李淼泉,李锋,熊爱明.TC6合金等温锻造过程中晶粒尺寸的数值模拟[J].中国有色金属学报,2005,15(9):1332-1337. 被引量：12
7曲银化,孙建科,孟祥军.TC4钛合金高温压缩变形行为的研究[J].材料开发与应用,2006,21(2):24-29. 被引量：22
8Hu Z M,Brooks J W,Dean T A.Experimental and theoretical analysis of deformation and microstructural evolution in the hot-die forging of titanium alloy aerofoil sections[J].J Mater Proc Tech,1999,88:251-265.
9Seshacharyulu T,Medeiros S C.Hot working of commercial Ti-6Al-4V with an equiaxed α-β microstructure:materials modeling considerations[J].Materials Science & Engineering A,2000,284:184-194.
10Guo Z X,Baker T N.On the microstructure and thermomechanical processing of titanium alloy IMI685[J].Materials Science & Engineering A,1992,156:63-76.

引证文献8

1李晓丽,李淼泉,李锋,熊爱明.TC6合金等温锻造过程中晶粒尺寸的数值模拟[J].中国有色金属学报,2005,15(9):1332-1337. 被引量：12
2徐文臣,单德彬,杨国平,吕炎.Flow behavior and microstructure evolution during hot compression of TA15 titanium alloy[J].中国有色金属学会会刊：英文版,2006,16(A03):2066-2071. 被引量：2
3罗皎,李淼泉,潘洪泗,苏少博.热变形条件对Ti60合金微观组织的影响[J].中国有色金属学报,2007,17(1):53-58. 被引量：7
4罗皎,李淼泉.FE-based coupling simulation of Ti60 alloy in isothermal upsetting process[J].Transactions of Nonferrous Metals Society of China,2010,20(5):849-856. 被引量：2
5LUO Jiao LI Miaoquan.Modeling of grain size in isothermal compression of Ti-6Al-4V alloy using fuzzy neural network[J].Rare Metals,2011,30(6):555-564. 被引量：6
6金哲,张万明.生物医用Ti-6Al-7Nb合金高温变形行为研究[J].稀有金属,2012,36(2):218-223. 被引量：17
7任璐英,张治民,白瑞,马城,薛勇,王强.热等静压TC4粉末体热压缩变形组织演变规律[J].兵器材料科学与工程,2018,41(4):58-62. 被引量：2
8马昕,许斯洋,周舸,丁桦.Ni_(60)Ti_(40)形状记忆合金的热变形行为[J].中国冶金,2022,32(9):26-36. 被引量：3

二级引证文献51

1钟明君,王克鲁,鲁世强,李鑫,周璇,冯瑞.TC20钛合金的变形热效应和局部流动行为[J].特种铸造及有色合金,2020(10):1156-1160. 被引量：3
2Wang Guo,Hui Songxiao,Ye Wenjun,Mi Xujun,Wang Yongling,Zhang Wenjing.Microstructure and tensile properties of low cost titanium alloys at different cooling rate[J].Rare Metals,2012,31(6):531-536. 被引量：8
3罗皎,李淼泉,潘洪泗,苏少博.热变形条件对Ti60合金微观组织的影响[J].中国有色金属学报,2007,17(1):53-58. 被引量：7
4付永涛,刘郁丽,杨合,高涛.带阻尼台叶片精锻过程温度场分布规律研究[J].重型机械,2007(5):25-29. 被引量：2
5徐文臣,单德彬,王振龙,杨国平,吕炎,康达昌.Effect of spinning deformation on microstructure evolution and mechanical property of TA15 titanium alloy[J].中国有色金属学会会刊：英文版,2007,17(6):1205-1211. 被引量：12
6侯会喜.钛合金锻造模拟成形技术发展现状[J].长沙航空职业技术学院学报,2008,8(1):55-58. 被引量：2
7周盛,傅建,王涛,孙曙宇.叶片模锻过程的微观组织数值模拟研究[J].锻压装备与制造技术,2008,43(3):63-66. 被引量：2
8杜之明,柳君,陈刚,秦晋,谢水生.Investigation of semi-solid aluminum alloy filling-plastic flowing in thixoforging[J].中国有色金属学会会刊：英文版,2010,20(S3):893-897.
9权国政,张光华,周杰,刘克威.7075铝合金的热激活变形行为与唯象本构关系[J].热加工工艺,2009,38(18):22-25. 被引量：3
10郭强,刘郁丽,杨合.带阻尼台叶片多向模锻过程场量分布规律研究[J].材料科学与工艺,2010,18(2):159-163. 被引量：3

1孙勇.车削细长轴的防变形装置[J].机械工程师,2008(2):117-117.
2夏显明,薛克敏,李萍,魏宝丽.ZK60镁合金往复挤压实验研究[J].塑性工程学报,2017,24(2):105-110. 被引量：4
3F.R. Cao and J.Z. Cui(Department of Metalforming,P.O.B 317, Northeastern University, Shenyang 110006, China).THE SUPERPLASTICITY AND DEFORMATION MECHANISM OF ULTRALIGHT BINARY Mg-8wt%Li ALLOY[J].Acta Metallurgica Sinica(English Letters),1997,10(6):527-530. 被引量：6
4孟继东,池成忠,常城,孙文波.压力扭转塑性变形装置的结构设计[J].机械工程与自动化,2012(5):106-108.
5Jian, Shen.MATERIAL CONSTANTS OF AN Al-Li-Cu-Mg-Zr ALLOY DURING DEFORMATION AT ELEVATED TEMPERATURES[J].中国有色金属学会会刊：英文版,1998,8(1):79-83. 被引量：4
6X.H. You, Q.L. Zhang and H.G. Guo Taiyuan Heavy Machinery Institute, Taiyuan 030024, China.SIMULATED RESEARCH ON HOT FORMING MECHANISM OF 35CrMo STEEL[J].Acta Metallurgica Sinica(English Letters),2000,13(2):682-686.
7杜之明,罗守靖,孙家宽.Deformation mechanism of tension of 2024Al alloy at semi-solid state[J].中国有色金属学会会刊：英文版,2000,10(5):666-670. 被引量：4
8陈慧琴,张巧丽,刘建生,郭会光.Simulation and prediction of microstructure in hot forming of metals[J].中国有色金属学会会刊：英文版,2000,10(4):465-468. 被引量：2
9M. Guan, J. L. song and H. G. Guo Taiyuan Heavy Machinery Institute, Taiyuan 030024, China.SIMULATION OF HOT FORMING PROCESSION IN Mn18Cr18NSTEEL[J].Acta Metallurgica Sinica(English Letters),2000,13(2):434-438.
10景屹峰,何刚,陶力,吴康伟.吏用气电组合加热模具装置的闭式等温模锻[J].锻造与冲压,2017,0(3):28-30.

中国有色金属学会会刊：英文版

2005年第4期

浏览历史

内容加载中请稍等...