Abstract
Herein, variant-pairing tendencies of lenticular martensite in an Fe–30Ni–0.3C (wt%) alloy are analyzed based on rank-1 connection at martensite/martensite junction planes (JPs) to facilitate the understanding of martensite microstructure. The degree of incompatibility (θ) at the JPs successfully explained their observed frequency; in the actual microstructure, variant pairs with a small θ form preferentially. The experimentally obtained JPs were consistent with theoretical ones. To the best of our knowledge, this is the first study to confirm the validity of variant-pair crystallography in steel based on rank-1 connection, both theoretically and experimentally. Diamond, composite-spear, and composite-kink clusters are considered. The cumulative θ at the JPs can suppress diamond cluster formation because it exceeds the θ of a single variant pair, and the diamond cluster is not observed experimentally. However, θ at the JPs cancel out in composite-spear (CS) and composite-kink (CK) clusters, but CK clusters are rarely observed experimentally, while a few CS clusters are observed. This demonstrates the analytical limitations of 2D approaches used to evaluate the frequency of variant pairs and clusters. These two variant clusters have a narrow window of 2D observation because the orientation relationships between JPs and intersection lines between two habit planes affect the areas of JPs.
Highlights
Variant-pairing tendencies of lenticular martensite in an Fe–30Ni–0.3C alloy are analyzed based on rank-1 connection at martensite/martensite junction planes (JPs) to facilitate the understanding of martensite microstructure
The lattice parameters of austenite (a = 358.71 ± 0.02 pm) and martensite were obtained from a specimen cooled at 77 K; a specimen cooled at 231 K would have served well because all specimens were confirmed to retain austenite
The variant-pairing tendencies of lenticular martensite in an Fe–30Ni–0.3C alloy were analyzed based on rank-1 connection, especially at the JPs
Summary
Variant-pairing tendencies of lenticular martensite in an Fe–30Ni–0.3C (wt%) alloy are analyzed based on rank-1 connection at martensite/martensite junction planes (JPs) to facilitate the understanding of martensite microstructure. The degree of incompatibility (θ) at the JPs successfully explained their observed frequency; in the actual microstructure, variant pairs with a small θ form preferentially. Θ at the JPs cancel out in composite-spear (CS) and composite-kink (CK) clusters, but CK clusters are rarely observed experimentally, while a few CS clusters are observed This demonstrates the analytical limitations of 2D approaches used to evaluate the frequency of variant pairs and clusters. The adjacent-variant bias in lenticular and thin-plate martensite is partially explained by self-accommodation, similar to shape memory alloys (SMAs)[2,3,10,11,12,13,14]. The condition for geometric compatibility of two domains with deformation gradients F and G, i.e., the condition for maintaining continuity of deformation across an interface with normal n, is as follows:
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
