Phase Composition and Residual Stresses in the Surface Layers of VNS9-Sh TRIP Steel
Author:
Publisher
Pleiades Publishing Ltd
Subject
Metals and Alloys
Link
https://link.springer.com/content/pdf/10.1134/S0036029520100067.pdf
Reference21 articles.
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2. Z. H. Cai, H. Ding, R. D. K. Misra, and Z. Y. Ying, “Austenite stability and deformation behavior in a cold-rolled transformation-induced plasticity steel with medium manganese content,” Acta Mater. 84, 229–236 (2015).
3. J. Kanga, Y. J. Li, X. H. Wang, H. S. Wang, G. Yuan, R. D. K. Mishra, and G. D. Wang, “Design of a low density Fe–Mn–Al–C steel with high strength–high ductility combination involving TRIP effect and dynamic carbon partitioning,” Mater. Sci. Eng. A 742, 464–477 (2019).
4. S.-C. Chen, Y.-T. Wang, Y.-C. Lin, C.-Y. Huang, J.‑R. Yang, and H.-W. Yen, “Microstructure and mechanical behavior of GPa-grade TRIP steels enabled by hot-rolling processes,” Mater. Sci. Eng. A 761, art. 138005 (2019).
5. P. G. Xu, Y. Tomota, Y. Arakaki, S. Harjo, and H. Sueyoshi, “Evalution of austenitic volume fraction in TRIP steel sheets using neutron diffraction,” Mater Charact. 127, 104–110 (2017).
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