酒窝
材料科学
氢脆
断裂韧性
断裂力学
脆化
复合材料
断裂(地质)
晶间断裂
韧性
穿晶断裂
冶金
晶间腐蚀
微观结构
腐蚀
作者
Armin E. Halilović,Jonas Faleskog,Pål Efsing
标识
DOI:10.1016/j.engfracmech.2023.109460
摘要
This work presents a systematic investigation of the combined effect of hydrogen embrittlement and loss of constraint. The fracture mechanics experiments are performed on an advanced martensitic high strength steel using a single-edge-notch bend specimen, with different crack over height ratio, subjected to electrochemical in-situ hydrogen charging at various loading rates. It is found that the environmentally driven ductile-to-brittle transition region in fracture toughness is obtained for both the high and low constraint specimen configurations. This region is characterized by a change from transgranular dimple rupture to an intergranular mode of fracture. The transition region for the low constraint specimen is shifted towards longer hydrogen exposure times, which is an effect of the reduced hydrostatic stress ahead of the crack front compared to the high constraint specimen. The low constraint specimen exhibits significant plastic straining, which is reflected in a significant decrease in the fracture toughness due to hydrogen transgranular assisted dimple rupture.
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