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March 3, 2026
The dual and decoupled roles of ultra-low sulfur content in the stress corrosion cracking of a 17–4PH martensitic steel in geothermal environments
PL
Pan Liu
Wuhan University of Technology
YW
Yasuaki Watanabe
YW
Yunlong Wu
Tohoku University
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Key Points
Stress corrosion cracking is influenced by ultra-low sulfur content in 17–4PH martensitic steel, revealing complex interactions.
Analysis shows that varying sulfur levels can significantly affect material integrity under geothermal conditions.
Observational analysis reveals how material properties change based on sulfur content and environmental factors.
Potential implications include enhancing durability in specific applications, but results may vary in real-world scenarios.
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Liu et al. (Tue,) studied this question.
synapsesocial.com/papers/69a760b9c6e9836116a2dbea
https://doi.org/https://doi.org/10.1016/j.corsci.2026.113688
The dual and decoupled roles of ultra-low sulfur content in the stress corrosion cracking of a 17–4PH martensitic steel in geothermal environments | Synapse