Hydrogen degradation effects on mechanical properties in T24 weld microstructures

被引:14
|
作者
Rhode, Michael [1 ]
Steger, Joerg [1 ,2 ]
Boellinghaus, Thomas [1 ]
Kannengiesser, Thomas [1 ]
机构
[1] BAM Fed Inst Mat Res & Testing, Berlin, Germany
[2] Otto Von Guericke Univ, Magdeburg, Germany
关键词
Hydrogen embrittlement; Heat affected zone; Microstructure; Creep resisting materials; Low alloy steels; STRESS-CORROSION CRACKING; STEEL; EMBRITTLEMENT; 2.25CR-1MO; DIFFUSION;
D O I
10.1007/s40194-015-0285-5
中图分类号
TF [冶金工业];
学科分类号
0806 ;
摘要
Spectacular failure cases of fossil power stations in the recent years exhibited severe cracking in T24 welds. The results show that hydrogen-assisted cracking up to 200 degrees C cannot be excluded. Hence, it is important to gain a basic understanding on how hydrogen might affect the basic material properties in the respective weld microstructures. The present study focuses on hydrogen degradation of the respective weld microstructures, i. e., the weld metal and the coarse grained heat affected zone, where actually cracking appeared in practice. Tensile tests were carried out for coarse grain heat-affected zone (CGHAZ) and the weld metal in uncharged and electrochemically hydrogen-charged condition. It turned out that both microstructures show distinct tendency for gradual degradation of mechanical properties in the presence of increasing hydrogen concentration. Already for a hydrogen concentration about and above 2 ml/100 g Fe, a significant ductility reduction has been observed. SEM investigations revealed that the fracture topography changes from ductile topography in uncharged condition to intergranular topography for the CGHAZ and to ductile-brittle mix for the weld metal (WM) in hydrogen charged condition. Ti-rich inclusions were identified as central regions of quasi-cleavage fracture areas in the WM. An approximation procedure is applied to quantify the degradation intensity.
引用
收藏
页码:201 / 216
页数:16
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