Abstract

Variant selection during displacive transformation is popularly monitored by assessing the pole figure or orientation density function of the bulk texture or pole figures from single prior austenite grains. It can also be done by measuring the physical orientation of α′ (bainite or marteniste) plates in the microstructure. It is known that when variants of α′ form randomly, i.e. there is no variant selection, the shear strain associated with each α′ plate gets canceled and transformation strain becomes equal to the volume strain. Under this condition, orientation of sheaves of α′ also shows random distribution. In this work, it has been shown how transformation strain and orientation of sheaves change when variant selection occurs. Mathematical models have already been developed to calculate the transformation strain under various loading conditions; extensive experiments have been conducted during the course of this work to show how the nature of externally applied stress influences the transformation strain. In addition to this, it has also been shown that the variant selection might leave its trace in the microstructure by affecting the alignment of the sheaves under externally applied stress and strain. Mathematical models have been developed to show that variant selection has negligible influence on physical orientation of α′ plates when transformation occurs under external stress, but prior plastic deformation can dictate the orientation to a great extent.

Highlights

  • The requirement for steels with high strength and elongation is increasing day by day

  • It has been discussed in sufficient detail in recent literature that when bainite or marteniste transformation occurs under the influence of stress or strain, some variants are favoured, this phenomenon is known as variant selection.[1,2,3,4,5]

  • It might change the microstructure with more and more sheaves of a9 aligned to a particular angle with the stress axis and second, it changes the transformation strain to a significant extent

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Summary

Materials Science and Technology

ISSN: 0267-0836 (Print) 1743-2847 (Online) Journal homepage: https://www.tandfonline.com/loi/ymst[20]. Variant selection during displacive transformation is popularly monitored by assessing the pole figure or orientation density function of the bulk texture or pole figures from single prior austenite grains It can be done by measuring the physical orientation of a9 (bainite or marteniste) plates in the microstructure. It is known that when variants of a9 form randomly, i.e. there is no variant selection, the shear strain associated with each a9 plate gets canceled and transformation strain becomes equal to the volume strain Under this condition, orientation of sheaves of a9 shows random distribution. Mathematical models have been developed to show that variant selection has negligible influence on physical orientation of a9 plates when transformation occurs under external stress, but prior plastic deformation can dictate the orientation to a great extent. This paper is part of a special issue on Adventures in the Physical Metallurgy of Steels

Introduction
Mangal et al Dilatometric and microstructural response of variant selection
Quantitative determination of variants in microstructure
Alignment of bainite sheaves towards the direction of applied stress
Transformation strain under various kinds of stress
Findings
Conclusion

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