TRIP钢无缝管的开发及其成形性分析

Development and formability analysis of TRIP seamless steel tube

下载PDF

导出

摘要本文首次将趋于成熟的相变诱发塑性钢(TRIP钢)生产技术应用到钢管的生产领域,以冷拔钢管为原料,分别利用两阶段热处理和连续热处理两种方式成功开发出具有铁素体、贝氏体、残余奥氏体和少量马氏体组织的薄壁TRIP钢无缝管,并利用环形拉伸以及冷弯等试验手段对其成形性能进行了试验研究。研究结果表明,TRIP钢无缝管具有较好的冷成形性能,可以在内高压成形等领域推广应用。另外,课题组开发的连续热处理设备完全可以用来生产TRIP钢管,为未来工业生产提供了重要参考。 In the present study,the production technology of transformation induced plastici-ty（TRIP）steel was firstly introduced in the steel tube manufacture field. The TRIP steel tubes with a microstructure of ferrite,bainite,retained austenite and a little martensite were success-fully fabricated with both of the two-stage heat treatment technique and continuous heat treat-ment technique using a cold drawn steel tube. The ring tensile test and cold bending process were carried out to study the formability of the newly developed TRIP seamless steel tube. The results showed that the TRIP seamless steel tubes have a good cold formability,and they are available to be used in the tube hydroforming process. In addition,the equipment of continuous heat treatment developed in the current study can be used to produce TRIP steel tube and it may serve as an important reference for the industrial production of TRIP steel tube.

作者张自成朱伏先

机构地区东北大学现代设计与分析研究所东北大学机械工程与自动化学院东北大学轧制技术及连轧自动化国家重点实验室

出处《中国工程科学》北大核心 2014年第2期46-52,共7页 Strategic Study of CAE

基金东北大学引进人才启动资金项目(02080021233061)

关键词 TRIP钢热处理成形性能钢管微观组织 TRIP steel heat treatment formability steel tube microstructure

分类号 TG142.1 [金属学及工艺—金属材料]

引文网络
相关文献

参考文献18

1Mildenberger Udo, Khare Anshuman. Planning for an environ- ment-friendly car [J]. Technovation, 2000, 20(4) : 205-214.
2KocE Muammer, Altan Taylan. An overall review of the tube hy- droforming (THF) technology [J]. Journal of Materials Proces- sing Technology, 2001, 108(3 ) : 384-393.
3Morphy G. Tubular hydroforming: Ability and exibility of pres- sure sequencing [C]// Proceedings of the Tube and Pipe Associa- tion Conference on Hydroforming. Chicago, USA, 1997.
4关小军,周家娟,王作成.一种新型汽车用钢——相变诱发塑性钢[J].特殊钢,2000,21(2):27-30. 被引量：17
5Li Yuxuan, Lin Zhongqin, Jiang Aiqin, et al. Use of high strength steel sheet for lightweight and crashworthy car body [J]. Materials & Design, 2003, 24(3) : 177-182.
6American Iron and Steel Institute. Ultralight steel auto body final report [R]. Washington DC: American Iron and Steel Institute, 1998.
7Masumura Osamu, Sakuma Yasuharu, Takechi Hiroshi. En- hancement of elongation by retained austenite in intercritical an- nealed 0.4C-1.5Si-0.8Mn steel [J]. Transactions of the Iron and Steel Institute of Japan, 1987, 27(4) : 570-579.
8Matsumura O, Sakuma Y, Takechi H. TRIP and its kinetic as- pects in austempered 0.4C-1.5Si-0.8Mn Steel [J]. Scripla Metal- lurgica, 1987, 21: 1301-1306.
9Chen H C, Era H, Shimizu M. Effect of phosphorus on the for- marion of retained austenite and mechanical properties in Si- containing low carbon steel sheet [J]. Metallurgical and Materials Transactions A, 1989, 20(3 ) : 437-445.
10Sakuma Yasuharu, Matlock David K, Krauss George. Mechani- eal behavior of an intercritically annealed and isothermally transformed low C alloy steel with ferrite-bainite-austenite mi- crostructures [J]. Journal of Heat Treating, 1990, 8 (2) : 109- 120.

二级参考文献26

1[1]Zackay V F,et al. Trans Am Soc Mat,1967,60:252
2[2]Wigson D C and Berger J A. J Iron Steel Inst, 1969,207:63
3[3]Sunderson G P and Llewellyn D T. J Iron Steel Inst, 1969,207:1029
4[4]Tamara I,Make T and Hato H .Trans Iron Steel Inst Jpn, 1970,10:163
5[5]Olson G B and Cohen M. Metall Trans A, 1975, 6A:791
6[6]Hayden H W and Florren S. Trans ASM, 1968, 61:474
7[7]Florren S and Hayden H W. Trans ASM, 1968,61:489
8[8]Hayami S and Tunkawa T.Microalloying 75, Union Carbide Corp, New York,1975:311
9[9]Masumura O,Sakuma Y and Takechi H.Trans Iron Steel Inst Jpn, 1987,27:570
10[10]Masumura O, Sakuma Y and Takechi H.Scripta Metall, 1987,21:1301

共引文献16

1王学双,张义和,庄华晔,曹广祥,韩云涛.先进高强钢Cowper-Symonds本构方程的建立及模拟[J].汽车工艺与材料,2013(12):1-5. 被引量：2
2景财年,王作成.TRIP-相变诱发塑性钢的研究进展[J].特殊钢,2004,25(4):1-5. 被引量：31
3郑晖,李国峰.汽车用钢板的现状和发展趋势[J].沈阳航空工业学院学报,2006,23(2):29-31. 被引量：6
4郝晓东,张启富.相变诱导塑性钢热镀锌的研究进展[J].材料保护,2007,40(1):46-49. 被引量：13
5李路遥,齐艳萍,李维娟.贝氏体区热处理对马氏体基体冷轧TRIP钢组织与性能的影响[J].热加工工艺,2007,36(12):26-29. 被引量：3
6冯祎卿.双相钢在汽车行业中的应用[J].上海汽车,2008(4):39-42. 被引量：19
7齐艳萍,李维娟.两相区退火对相变诱发塑性钢显微组织与力学性能的影响[J].机械工程材料,2009,33(9):85-89.
8李激光,郝彦军,罗晓波,英培云.低碳-硅-锰系TRIP钢的组织演变规律研究[J].热加工工艺,2009,38(20):35-37. 被引量：2
9马娟,符仁钰,黄澍,李麟.含P-Ti-V TRIP钢的组织和力学性能研究[J].上海金属,2011,33(1):30-33.
10张自成,朱伏先.高强塑性TRIP钢无缝钢管的开发及其内高压成形性能的研究[J].钢管,2012,41(3):13-23. 被引量：1

1孙立君,阮锋.预冲工艺孔的板料冲压成形性分析[J].锻压装备与制造技术,2007,42(6):56-58. 被引量：8
2钟新农.汽车轻量化与高强度钢板的成形性分析[J].机电产品开发与创新,2006,19(3):40-41. 被引量：3
3蔡利,胡亚民,车路长.电磁纯铁的锻造及冷成形性能研究[J].汽车工艺与材料,1998(9):25-28. 被引量：8
4黄允峰.高纯氮基气氛网带式连续热处理自动线[J].铸锻热（热处理实践）,1992(4):35-38.
5奥勇,顾景诚.在铝板带连续热处理生产线上感应加热的应用[J].铝加工技术,1991(3):53-58.
6朱亮,李传欣.本钢不锈钢厂冷带退火工艺和设备[J].冶金信息导刊,2014,0(5):42-44.
7王海玲,陈世涛,何鹏申.汽车后地板左／右纵梁冲压成形性分析及模具设计[J].锻造与冲压,2015,0(8):44-46. 被引量：1
8朱兴华,蔡炳芳.轻型载货汽车纵梁模具设计及成形性仿真分析[J].锻压技术,2008,33(6):54-56. 被引量：3
9梅自元,周新建,肖乾.圆筒形件冲压成形中拉深筋的成形性分析[J].热加工工艺,2007,36(1):50-52. 被引量：8
10张燕瑰,邓劲松,魏宪波,丁华,冯擎峰.AutoForm R4软件功能导航[J].精密成形工程,2014,6(1):69-72. 被引量：1

中国工程科学

2014年第2期

浏览历史

内容加载中请稍等...

TRIP钢无缝管的开发及其成形性分析

参考文献18

二级参考文献26

共引文献16

相关作者

相关机构

相关主题

浏览历史