The present report describes a study aimed at assessing the influence of interstitial solute concentrations, in the form of carbon, nitrogen and oxygen, on the mechanical properties of a 40% Cr-Fe stainless steel. It’s observed that carbon and nitrogen dramatically reduced the impact toughness properties while oxygen has only a small detrimental effect. Above a certain level of carbon and nitrogen the toughness was insensitive to the amount of interstitial solute. This was ascribed to the saturation of dislocation precipitation sites. The present toughness data support the proposed theory that the toughness of ferritic stainless steels is controlled by the precipitation of carbides and nitrides on dislocations and not by the structure and morphology of precipitates. Finally, the brittle sigma phase was not identified in the present study and a detailed analysis revealed only the presence of chromium-rich carbides and nitrides and some iron-rich oxides.
Reference:
Van Zwieten, ACTM and Bulloch, JH. Influence of interstitial solute level on toughness properties of 40% Cr-Fe stainless-steel. International journal of pressure vessels and piping, vol 56 (1), pp 69-91
Van Zwieten, A., & Bulloch, J. (1993). Influence of interstitial solute level on toughness properties of 40% Cr-Fe stainless-steel. http://hdl.handle.net/10204/540
Van Zwieten, ACTM, and JH Bulloch "Influence of interstitial solute level on toughness properties of 40% Cr-Fe stainless-steel." (1993) http://hdl.handle.net/10204/540
Van Zwieten A, Bulloch J. Influence of interstitial solute level on toughness properties of 40% Cr-Fe stainless-steel. 1993; http://hdl.handle.net/10204/540.