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Her research highlights how specific alloying elements, such as Aluminum (Al), Chromium (Cr), and Silicon (Si), enhance oxidation resistance due to sluggish diffusion, a key factor in improving performance for high-temperature applications. 3. Electrochemical Energy Conversion
Studying how different temperatures, from cryogenic to elevated, influence the activated slip systems and activation enthalpy for yielding in metallic materials. Key Publications and Contributions
(Volume 27, Renewable Materials) and is on the Editorial Board for the International Journal of Fatigue Primary Research Interests
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At Kyushu University, Dr. Anne focused on how microstructures withstand stress. She mapped activated slip systems and measured Schmid factor distributions in bimodal titanium alloys. Her research explained the physical mechanisms that dictate low-cycle fatigue and mechanical yielding across changing thermal environments.
The study investigates the mechanical and wear properties of Nickel-Tungsten (Ni-W)
Subsequently, she worked as a . Before her current role, she briefly served as an Ad-hoc Assistant Professor in the Department of Metallurgical and Materials Engineering at NIT Warangal in early 2023. In February 2024 , she returned to India to take on her current role as an Assistant Professor in the Department of Metallurgical and Materials Engineering at NIT Raipur .
She then earned an M.Tech. in Materials Engineering from the University of Hyderabad (UoH), graduating as a gold medalist for her outstanding academic performance.
Dr. Anne's published output occupies a unique interface where structural metallurgy informs electrochemical design. Her primary research interests split into two vital engineering streams: 1. Structural Mechanical Metallurgy & Titanium Alloys
Department of Materials Science and Engineering, Graduate School of Engineering.
