Electron beam and metal active gas welding of ultra-high-strength steel S1100MC: influence of heat input

被引:0
作者
Mustafa Tümer
Josef Domitner
Norbert Enzinger
机构
[1] Kocaeli University,Welding Technology Program
[2] Graz University of Technology,Institute of Materials Science, Joining and Forming
来源
The International Journal of Advanced Manufacturing Technology | 2022年 / 119卷
关键词
Electron beam welding; Metal active gas welding; Ultra-high-strength steel; Microstructure; Ferrite; Prior austenite grain; Microhardness mapping;
D O I
暂无
中图分类号
学科分类号
摘要
This study investigates the microstructure and the hardness of thermomechanically processed joints of ultra-high-strength steel (UHSS) S1100MC, which were butt-welded by means of metal active gas (MAG) welding and electron beam welding (EBW). In MAG welding, the microstructure of the fusion zone (FZ) consisted predominantly of fine ferrite grains. Due to the formation of martensite/austenite (M/A) constituents, the hardness of the reheated weld metal (WM) was higher for vertical-up (PF) than for horizontal flat (PA) welding position. The microstructure of the heat-affected zone (HAZ) of the last welding pass consisted mainly of hard martensite in consequence of fast cooling. However, necklace-type M/A constituents and bainite phases of lower hardness formed when the HAZ of prior welding passes were reheated by subsequent welding passes. The microstructure of the EBW fusion zone was dominated by martensite. Therefore, the fusion zone had considerable higher hardness than the base material (BM). The width of the HAZ in EBW weldments is less than in MAG weldments.
引用
收藏
页码:587 / 598
页数:11
相关论文
共 161 条
[1]  
Schaupp T(2017)Welding residual stresses in 960 MPa grade QT and TMCP high-strength steels J Manuf Process 27 226-232
[2]  
Schroepfer D(2012)High strength low alloy steel weldments with accommodated qualities to the base metal BHM 157 102-107
[3]  
Kromm A(2012)Electron beam welding of a TMCP steel with 700 MPa yield strength Weld World 56 85-94
[4]  
Kannengiesser T(2013)Induction-assisted laser beam welding of a thermomechanically rolled HSLA S500MC steel: a microstructure and residual stress assessment Mater Sci Eng A 578 125-133
[5]  
Rauch R(2019)Laser beam oscillating welding of 5A06 aluminum alloys: microstructure, porosity and mechanical properties Opt Laser Technol 111 58-65
[6]  
Kapl S(2016)Microstructural characterization and mechanical properties of electron beam welded joint of high strength steel grade S690QL Arch Metall Mater 61 1193-1200
[7]  
Posch G(2019)Microstructure and mechanical properties of gas tungsten arc welded Cu-Al-Mn shape memory alloy rods J Mater Process Technol 271 93-100
[8]  
Radlmayr K(2015)Microstructure and mechanical properties of laser welded S960 high strength steel Mater Des 85 534-548
[9]  
Maurer W(2019)Influence of quenching conditions on texture and mechanical properties of ultra-high-strength steels J Mater Sci 54 12875-12886
[10]  
Ernst W(2015)Comparison of laser welds in thick section S700 high-strength steel manufactured in flat (1G) and horizontal (2G) positions CIRP Ann - Manuf Technol 64 197-200
12345678910