PSI - Issue 68

Rahul Singh et al. / Procedia Structural Integrity 68 (2025) 715–721 Rahul Singh et.al/ Structural Integrity Procedia 00 (2025) 000–000

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Acknowledgments The authors wish to gratefully acknowledge support from the Department of Science and Technology under the grant DST/TDT/TDP-71/2022. References Alexander, D. J. and I. M. Bernstein. 1982. “The Cleavage Plane of Pearlite.” Metallurgical Transactions A 13(10):1865–68. Garbarz, B. and F. B. Pickering. 1988. “Effect of Pearlite Morphology on Impact Toughness of Eutectoid Steel Containing Vanadium.” Materials Science and Technology (United Kingdom) 4(4):328–34. Hyzak, J. M. and I. M. Bernstein. 1976. “The Role of Microstructure on the Strength and Toughness of Fully Pearlitic Steels.” Metallurgical Transactions A 7(8):1217–24. Kavishe, F. P. L. and T. J. Baker. 1986. “Effect of Prior Austenite Grain Size and Pearlite Interlamellar Spacing on Strength and Fracture Toughness of a Eutectoid Rail Steel.” Materials Science and Technology (United Kingdom) 2(8):816–22. Khiratkar, Vaibhav N., Kushal Mishra, and Aparna Singh. 2021. “Deformation and Microstructural Evolution of Nanostructured Pearlite under Tension versus Torsion.” Steel Research International 92(4):1–9. Khiratkar, Vaibhav N., Kushal Mishra, Polavarapu Srinivasulu, and Aparna Singh. 2019. “Effect of Inter-Lamellar Spacing and Test Temperature on the Charpy Impact Energy of Extremely Fine Pearlite.” Materials Science and Engineering: A 754(March):622–27. Lewandowski, John J. and Anthony W. Thompson. 1986. “Effects of the Prior Austenite Grain Size on the Ductility of Fully Pearlitic Eutectoid Steel.” Metallurgical Transactions. A, Physical Metallurgy and Materials Science 17 A(3):461–72. Mishra, K., V. N. Khiratkar, and A. Singh. 2019. “Improvement of Sub-Critical Fatigue Crack Growth Life by Nano-Structuring of Pearlite.” International Journal of Fatigue 122(January):84–92. Mishra, K. and A. Singh. 2017. “Effect of Interlamellar Spacing on Fracture Toughness of Nano-Structured Pearlite.” Materials Science and Engineering: A 706(July):22–26. Mishra, Kushal, Vaibhav N. Khiratkar, and Aparna Singh. 2020. “Change of Deformation Mechanism through Nano-Structuring of Pearlite: An in-Situ Study.” Materials Characterization 167(June):110487. Mishra, Kushal, Abhishek Pachauri, and Aparna Singh. 2018. “Deformation, Wear and Microstructural Evolution of Nano-Structured Pearlite Under Repeated Contact Sliding.” Tribology Letters 66(3):1–12. Park, Y. J. and I. M. Bernstein. 1979. “The Process of Crack Initiation and Effective Grain Size for Cleavage Fracture in Pearlitic Eutectoid Steel.” Metallurgical Transactions A 10(11):1653–64. Taleff, Eric M., John J. Lewandowski, and Bamdad Pourladian. 2002. “Microstructure-Property Relationships in Pearlitic Eutectoid and Hypereutectoid Carbon Steels.” Jom 54(7):25–30. Zhou, Shitong, Yue Zuo, Zhaodong Li, Xin Wang, and Qilong Yong. 2016. “Microstructural Analysis on Cleavage Fracture in Pearlitic Steels.” Materials Characterization 119:110–13.