Temperature change induce crack mode transition of 316L stainless steel in H2S environment revealed by dislocation configurations
C Liu, J Liu, C Chen, H Yu - Corrosion Science, 2021 - Elsevier
The crack propagation mechanism of 316L austenitic stainless steel in the H 2 S
environment is revealed by dislocation configurations. Slow strain rate tensile test results …
environment is revealed by dislocation configurations. Slow strain rate tensile test results …
Stacking fault energy in relation to hydrogen environment embrittlement of metastable austenitic stainless CrNi-steels
R Fussik, G Egels, W Theisen, S Weber - Metals, 2021 - mdpi.com
Metastable austenitic steels react to plastic deformation with a thermally and/or mechanically
induced martensitic phase transformation. The martensitic transformation to α'-martensite …
induced martensitic phase transformation. The martensitic transformation to α'-martensite …
Effects of pre-creep on dislocation and tensile property of Cr-Ni steel
HX Pei, XM Yang, XD Fang, YH Zhao… - Materials Research …, 2021 - iopscience.iop.org
Pre-creep experiments were performed on chromium-nickel (Cr-Ni) stainless steel in the
early stage of creep. The temperature was held for 500–2000 h under high-temperature load …
early stage of creep. The temperature was held for 500–2000 h under high-temperature load …