Screening of heritage data for improving toughness of creep-resistant martensitic steels

Publication date: Available online 13 July 2019Source: Materials Science and Engineering: AAuthor(s): Amit K. Verma, Wei-Heng Huang, Jeffery A. Hawk, Laura S. Bruckman, Roger H. French, Vyacheslav Romanov, Jennifer L.W. CarterAbstractData science techniques were used to quantify the effect of alloying additions on the tensile behavior of martensitic steels. The effort was undertaken to exploit the heritage data to establish the next experimental design space for the class of 9–12 wt% Cr steels for the application of turbine rotors with an operating temperature of 650 ∘C and above. Linear, lasso, and multivariate multiple regression models were utilized to identify which alloying elements contribute towards strength and ductility. Visualization techniques such as t-distributed stochastic neighbor embedding and pair-wire element specific comparisons were utilized to explore information gaps that exist within the data. The study found that tantalum, recently added to improve the creep rupture lifetime, does not show any effect on tensile properties. All combined, the results suggest that the low tempering temperature has compensated for the low alloying additions in the past, therefore, new experiments are needed to isolate the effects of tempering temperature from those of individual elements.
Source: Materials Science and Engineering: A - Category: Materials Science Source Type: research