SA517 Gr.B埋弧自动焊焊接性能研究
Research on SAW Welding Properties of SA517 Gr.B
- 2023年53卷第12期 页码:28-32
DOI: 10.7512/j.issn.1001-2303.2023.12.04
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李娟,张佩瑶,王刚,等.SA517 Gr.B埋弧自动焊焊接性能研究[J].电焊机,2023,53(12):28-32.
LI Juan, ZHANG Peiyao, WANG Gang, et al.Research on SAW Welding Properties of SA517 Gr.B[J].Electric Welding Machine, 2023, 53(12): 28-32.
对SA517 Gr.B采用埋弧自动焊(SAW)的焊接接头进行力学性能、组织结构分布特征分析研究。研究结果表明,采用F76A2-EG-M4埋弧焊材,匹配适当的焊接工艺参数,结合焊前预热、后热等工艺措施,焊接接头力学性能优良;显微硬度最低点位于热影响区,说明受焊接热循环的作用热影响区出现了明显的软化现象,接头淬硬倾向不明显;焊缝和热影响区冲击断裂特征主要为剪切断裂,韧窝形貌,剪切断面率分别为90%和80%;焊缝组织以细小的针状铁素体为主,而热影响区组织以回火索氏体为主,析出了大量的碳化物,导致了冲击韧性下降。
Mechanical properties and microstructure of SA517 Gr.B welded joint by Submerged Arc Welding (SAW) were analyzed and investigated.The analysis results show that adopting F76A2-EG-M4 welding consumbles, matching proper welding procedure parameters,combined with process treasures of preheat before welding and heating after welding etc., the mechanical properties of welded joint exhibite excellent; the lowest microhardness is located in heated affected zone(HAZ), it indicates HAZ appears apparent softening phenomenon under the function of welding thermal cycle, which made harden quenching tendency of welded joint isn't obvious; Impact fracture feature of weld and HAZ is shearing fracture mainly, and fracture morphology has a large number of dimples, shear section ratio is 90% and 80% respectively; the main microstructure of weld is fine acicular fettite, and microstructure of HAZ is dominated by tempered sorbite, a larger number of carbide precipitated in HAZ, which results in the decrease of impact properties.
SA517 Gr.B焊接接头SAW力学性能组织结构
SA517 Gr.Bwelded jointSAWmechanical propertiesmicrostructure
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