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Effects of microstructure and residual stress on fatigue crack growth of stainless steel narrow gap welds
Authors:Changheui Jang  Pyung-Yeon Cho  Minu Kim  Seung-Jin Oh  Jun-Seog Yang
Affiliation:1. Dept. of Nuclear and Quantum Engineering, KAIST, Daejeon, Republic of Korea;2. Nuclear Engineering and Technology Institute, KHNP, Daejeon, Republic of Korea;3. Nuclear Power Research Laboratory, KEPRI/KEPCO, Daejeon, Republic of Korea
Abstract:The effects of weld microstructure and residual stress distribution on the fatigue crack growth rate of stainless steel narrow gap welds were investigated. Stainless steel pipes were joined by the automated narrow gap welding process typical to nuclear piping systems. The weld fusion zone showed cellular–dendritic structures with ferrite islands in an austenitic matrix. Residual stress analysis showed large tensile stress in the inner-weld region and compressive stress in the middle of the weld. Tensile properties and the fatigue crack growth rate were measured along and across the weld thickness direction. Tensile tests showed higher strength in the weld fusion zone and the heat affected zone compared to the base metal. Within the weld fusion zone, strength was greater in the inner weld than outer weld region. Fatigue crack growth rates were several times greater in the inner weld than the outer weld region. The spatial variation of the mechanical properties is discussed in view of weld microstructure, especially dendrite orientation, and in view of the residual stress variation within the weld fusion zone. It is thought that the higher crack growth rate in the inner-weld region could be related to the large tensile residual stress despite the tortuous fatigue crack growth path.
Keywords:A. Stainless steel   D. Narrow gap weld   E. Fatigue crack growth
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