Dr. Anne’s profile on Google Scholar provides a quantitative measure of her growing influence in the field. It lists her as a verified researcher with a number of publications that have already begun to accrue citations. Her published works delve into advanced topics in materials science, including the oxidation behavior in high entropy alloys (HEAs). HEAs are a novel class of materials that consist of multiple principal elements and often exhibit exceptional properties, such as high strength, good ductility, and remarkable resistance to wear and corrosion, making them a frontier research area.
Metallene-based catalysts towards hydrogen evolution reaction
She is also writing a book aimed at mid-career technologists, tentatively titled “The Strategic Engineer: From Code to Impact.” The book promises to offer practical frameworks for moving beyond technical tasks into strategic decision-making roles.
. Her career is marked by international research excellence and significant contributions to the study of titanium alloys and advanced coatings. Academic Profile and Key Achievements bhargavi rani anne
NIT Raipur (Feb 2024–Present) and previously an Ad-hoc Assistant Professor at NIT Warangal.
Tribomechanical Characterization of Pulsed Electrodeposited Ni-W Coatings on 4150 Steel : Shajahan Shaik, Bhargavi Rani Anne , Anindya Basu, and VVM Ramakrishna R. 1. Research Objective
18;write_to_target_document1b;_TqbuadrNHcmE7M8PkLPKkAI_100;57; 0;a6a;0;5e9; 0;152a;0;31f4; University of Hyderabad - Facebook Her published works delve into advanced topics in
Dr. Bhargavi Rani Anne is an accomplished academic and researcher specializing in Materials Engineering , with a specific focus on metallurgy, electrocatalysis, and structural alloys . She is currently an Assistant Professor National Institute of Technology (NIT) Raipur 🎓 Academic Profile
To gain a comprehensive understanding, Dr. Anne employed a dual-pronged experimental approach. She performed tensile tests across a wide temperature range, from 77K (equivalent to -196°C, the temperature of liquid nitrogen) up to 550K (approximately 277°C). In addition to studying how the material behaves under a simple pulling force (uniform loads), she also conducted fatigue tests using specimens with corner notches, which artificially introduce stress concentrations to simulate real-world flaws. This is critical because most engineering failures occur not from a single, massive overload but from the slow growth of microscopic cracks under repeated cyclic loads—a phenomenon known as fatigue.
Dr. Bhargavi Rani Anne - National Institute of Technology Raipur | LinkedIn. Dr. Bhargavi Rani Anne. LinkedIn India Dr. Bhargavi Rani Anne Editorial board - International Journal of Fatigue from 77K (equivalent to -196°C
She extended her stay in Japan to work as a Research Assistant Professor. There, she investigated the plastic behaviors of bimodal titanium alloys.
Dr. Bhargavi Rani Anne - National Institute of Technology Raipur
: Pivoted into clean-energy electrochemistry and advanced materials characterization within the Department of Materials Science and Engineering at the Korea Advanced Institute of Science and Technology (KAIST) .