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采用Gleeble-3500热模拟试验机研究了20MnSiV热轧钢筋在高应变速率下,三区(铁素体单向区、铁素体加奥氏体双相区及奥氏体单相区)压缩时的组织变化及变形特征.结果表明:铁索体单向区变形时,组织分布不均且晶粒粗大,应避免在该相区进行变形;铁素体加奥氏体双相区变形时奥氏体相转化成细小均匀的铁素体和珠光体,以760℃时的组织最佳,细晶强化和相变强化作用共同保证了材料在双相区变形比在奥氏体单相区变形具有更高的强韧性;结合变形抗力特征发现,随着变形温度的升高,变形抗力总体呈降低趋势,但存在3个低应力温度点,且在760℃最为显著;变形过程中铁素体与奥氏体合理的体积分数及相分布是760℃应力降低的主要原因.

参考文献

[1] 杨才福.高强度建筑钢筋的最新技术进展[J].钢铁,2010(11):1-11.
[2] 李伏武.直接轧制技术在棒材生产中的应用[J].轧钢,2014(04):90-91.
[3] S.F. Medina;M. Gomez;J.I. Chaves.Study on Ferrite Intragranular Nucleation in a V-Microalloyed Steel[J].Materials Science Forum,20050(0):371-378.
[4] 魏兵;韩斌;杨奕;谭文;汪水泽;刘洋.低碳钢低温轧制工艺实验研究[J].武汉科技大学学报(自然科学版),2013(4):258-260.
[5] 于庆波;孙莹;赵贤平;王斌.两相区热轧对低碳合金钢板组织性能的影响[J].材料热处理学报,2009(1):93-95.
[6] Dipti Samantaray;Alpesh Patel;Utpal Borah;S.K. Albert;A.K. Bhaduri.Constitutive flow behavior of IFAC-1 austenitic stainless steel depicting strain saturation over a wide range of strain rates and temperatures[J].Materials & design,2014Apr.(Apr.):565-571.
[7] 张坤;唐荻;武会宾;杨跃辉.两相区淬火对9Ni钢中逆转变奥氏体的影响[J].材料热处理学报,2012(8):59-63.
[8] 杨晓丽;余伟;付晨光.20MnSi温轧变形抗力数学模型及实验研究[J].轧钢,2003(1):18-21.
[9] 戴克玉.低温轧制技术在棒线材生产中的应用[J].安徽冶金,2007(3):14-17.
[10] 吴迪;赵宪明.棒线材连轧机低温轧制规程研究[J].钢铁,2001(12):30-33.
[11] M. El Mehtedi;F. Gabrielli;S. Spigarelli.Hot workability in process modeling of a bearing steel by using combined constitutive equations and dynamic material model[J].Materials & design,2014Jan.(Jan.):398-404.
[12] Samantaray, D.;Mandal, S.;Phaniraj, C.;Bhaduri, A.K..Flow behavior and microstructural evolution during hot deformation of AISI Type 316 L(N) austenitic stainless steel[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,201129/30(29/30):8565-8572.
[13] 周晓锋;刘战英.20MnSiV钢变形抗力数学模型和连续转变曲线研究[J].塑性工程学报,2006(6):74-78.
[14] 李红英;巫荣海;魏冬冬;李阳华;龙功名;王晓峰.T23钢的热变形行为[J].材料热处理学报,2013(1):96-101.
[15] Huang, Hongfeng;Jiang, Feng;Zhou, Jiang;Wei, Lili;Zhong, Muchun;Liu, Xingtao.Hot deformation behavior and microstructural evolution of as-homogenized Al-6Mg-0.4Mn-0.25Sc-0.1Zr alloy during compression at elevated temperature[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2015:862-872.
[16] S V Sajadi Far;M Ketabchi;M R Nourani.Hot Deformation Characteristics of 34CrMo4 Steel[J].钢铁研究学报(英文版),2010(12):65-69.
[17] Y. C. Lin;Ming-Song Chen;Jue Zhong.Effect of temperature and strain rate on the compressive deformation behavior of 42CrMo steel[J].Journal of Materials Processing Technology,20081/3(1/3):308-315.
[18] Seung Chan HONG;Sung Hwan LIM;Kyung Jong LEE.Effect of Undercooling of Austenite on Strain Induced Ferrite Transformation Behavior[J].ISIJ International,20033(3):394-399.
[19] 董瀚;孙新军;刘清友;翁宇庆.变形诱导铁素体相变现象与理论[J].钢铁,2003(10):56-67,55.
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