焊接热循环对07MnCrMoVR钢热影响区组织及韧性的影响
来源期刊:钢铁2011年第2期
论文作者:许良红 陈延清 章军 曾宇波 王剑
文章页码:62 - 68
关键词:07MnCrMoVR钢; 焊接热循环; 热影响区; 冲击韧性; M-A组元
Key words:07MnCrMoVR steel; welding thermal cycle; heat affect zone; impact toughness; M-A constituent
摘 要:为深入分析07MnCrMoVR钢热影响区的脆化问题,采用热模拟技术和显微观察技术,对该钢热影响区的组织和性能进行了深入研究。研究结果表明:单次热循环时,粗晶区(CGHAZ)和临界区(ICHAZ)韧性恶化严重,晶粒长大及粒状贝氏体、M-A组元等非平衡组织的形成是粗晶区韧性恶化的主要原因。随着t8/5的增加,粗晶区冲击韧性随之降低,为防止热影响区脆化,t8/5应控制在30s之内。粗晶区+临界区(IRCGHAZ)是多道焊二次热循环时热影响区韧性最差的区域,引起IRCGHAZ脆化的原因是大量沿晶界分布的块状M-A组元的形成。
Abstract: For investigating the embrittlement problem of the heat affected zone,the mechanical properties and microstructure of 07MnCrMoVR heat affected zone was studied by thermal simulation technology and microstructure examination technology.The results indicate that coarsed grain zone(CGHAZ) and critical zone(ICHAZ) are the brittlement zones in heat affected zone during single thermal cycle testing,and the brittlement of coarse grain zone ascribes to the grain coarsening and the formation of granular bainite and M-A constituent.With the increase of t8/5,the impact toughness of coarse grain zone decrease,and the t8/5 should be controlled in 30 s in actual welding.IRCGHAZ is the weakest zone in the HAZ during the second thermal cycling,and the formation of lot of massive M-A constituents distributed along grain boundary is the main cause for the brittlement of intercritically reheated coarse grained HAZ(IRCGHAZ).
许良红1,陈延清1,章军1,曾宇波2,王剑2
(1.北京市首钢技术研究院用户技术研究所
2.中国水电八局制安分局,湖南长沙 410007)
摘 要:为深入分析07MnCrMoVR钢热影响区的脆化问题,采用热模拟技术和显微观察技术,对该钢热影响区的组织和性能进行了深入研究。研究结果表明:单次热循环时,粗晶区(CGHAZ)和临界区(ICHAZ)韧性恶化严重,晶粒长大及粒状贝氏体、M-A组元等非平衡组织的形成是粗晶区韧性恶化的主要原因。随着t8/5的增加,粗晶区冲击韧性随之降低,为防止热影响区脆化,t8/5应控制在30s之内。粗晶区+临界区(IRCGHAZ)是多道焊二次热循环时热影响区韧性最差的区域,引起IRCGHAZ脆化的原因是大量沿晶界分布的块状M-A组元的形成。
关键词:07MnCrMoVR钢; 焊接热循环; 热影响区; 冲击韧性; M-A组元
