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Letter to the Study by Hyvönen et al. on Moisture Damage and MCS
Pekkanen, Juha,Karjalainen, Jussi,Lampi, Jussi Occupational Safety and Health Research Institute 2020 Safety and health at work Vol.11 No.3
Due to the significant methodological problems in the empirical part of the paper and the very selective literature review, the conclusions of the paper are mostly unsupported.
Behjati, P.,Kermanpur, A.,Najafizadeh, A.,Samaei Baghbadorani, H.,Karjalainen, L.P.,Jung, J.G.,Lee, Y.K. Scientific and Technical Press ; Elsevier Science 2014 MATERIALS AND DESIGN Vol.63 No.-
A conceptual approach was used to design a new Ni-free austenitic stainless steel with a unique combination of ultrahigh strength and ductility. The concept was based on the alloying of the 0.05C-18Cr-12Mn (wt.%) steel by 0.39%N and heavy warm rolling (84% reduction) at 1173K (900<SUP>o</SUP>C) to achieve the yield strength of minimum 1GPa and high tensile strength and elongation due to a proper stability of the austenite as a result of the optimized stacking fault energy (SFE). The yield strength of 1010MPa, tensile strength of 1150MPa and high fracture strain of 70% were measured for the steel designed. Dislocation and solid solution hardening mechanisms are introduced as the main contributors for the ultrahigh yield strength of the steel. The strain hardening is gradual and the hardening rate reaches a high level of ~2400MPa at a high true strain of 40% due to slow α'-martensitic transformation and mechanical twinning. Consequently, the ductility of the designed steel is excellent.