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Effect of welding heat input on microstructure and impact toughness in CGHAZ of X100Q steel

Authors
  • Wang, Hui-bin1, 2
  • Wang, Fei-long1, 3
  • Shi, Gen-hao1, 3
  • Sun, Yu1, 2
  • Liu, Jiang-cheng2
  • Wang, Qing-feng1, 3
  • Zhang, Fu-cheng1, 3
  • 1 Yanshan University, State Key Laboratory of Metastable Materials Science and Technology, Qinhuangdao, Hebei, 066004, China , Qinhuangdao (China)
  • 2 Tianjin Pipe (Group) Co., Ltd., Technical Center, Tianjin, 300301, China , Tianjin (China)
  • 3 Yanshan University, National Engineering Research Center for Equipment and Technology of Cold Strip Rolling, Qinhuangdao, Hebei, 066004, China , Qinhuangdao (China)
Type
Published Article
Journal
Journal of Iron and Steel Research International
Publisher
Springer Singapore
Publication Date
May 14, 2019
Volume
26
Issue
6
Pages
637–646
Identifiers
DOI: 10.1007/s42243-019-00271-5
Source
Springer Nature
Keywords
License
Yellow

Abstract

The coarse-grained heat-affected zones (CGHAZs) of X100Q steel were reproduced via simulating their welding thermal cycles with the varying heat input (Ej) from 10 to 55 kJ/cm in Gleeble3500 system. The microstructures were characterized, and the impact toughness was estimated from each simulated sample. The results indicate that the microstructure in each simulated CGHAZ was primarily constituted of lath-like bainite. With the decreased heat input and accordingly the lowered Ar3 (the onset temperature for this transition), the prior austenite grain and the bainitic packet/block/lath substructure were refined remarkably, and the impact toughness was enhanced due to the microstructure refinement. The bainitic packet was the microstructural unit most effectively controlling the impact properties in CGHAZ of X100Q steel, due to their close correlation with the 50% fracture appearance transition temperatures, their size equivalent to the cleavage facet and their boundaries impeding the crack propagation.

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