1. Prediction of hydrogen-assisted fracture under coexistence of hydrogen-enhanced plasticity and decohesion.
- Author
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Huang, Song, Hui, Hu, and Peng, Jian
- Subjects
- *
HYDROGEN embrittlement of metals , *FRACTURE toughness , *DAMAGE models , *TEST methods , *ACCOUNTING methods - Abstract
This work presents a novel strategy to model the coexistence of HELP & HEDE mechanisms. The proposed method accounts for ductile and brittle damage with a competitive fracture criterion to describe the competition effect between HELP & HEDE mechanisms. The cooperation aspect is addressed by a dislocation-enhanced hydrogen accumulation model, which agrees with the HELP-mediated HEDE mechanism. The tensile, fracture toughness, and threshold stress intensity factor tests are simulated in different hydrogen environments. The results demonstrate that the proposed method reproduces the hydrogen-dependent ductile to brittle transition phenomenon. Under different hydrogen conditions, the dominating damage mechanism and degradation trends agree with experimental observations. Furthermore, for the investigated 4130 steel, the predicted value of fracture toughness and threshold stress intensity factor match the experiment results. The difference in damage kinetics inherent in the two test methods is captured, which supports the rationality of the proposed strategy for HELP and HEDE interaction. [Display omitted] • Competitive & Cooperative ductile-brittle damage model on HELP & HEDE interplay. • Predicted Hydrogen embrittlement features match experimental observations. • K JC and K THa prediction outputs match experiment values. • Difference in hydrogen damage kinetics in different test methods captured. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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