Indian Institute of Technology Kharagpur | India
Dr. Adya Charan Arohi is an accomplished researcher in the field of metallurgical and materials engineering, specializing in microstructure evolution, mechanical properties, and advanced materials characterization. He has contributed significantly to the study of titanium alloys, additive manufacturing, shape memory alloys, and composites. His expertise bridges fundamental science and industrial applications, with a focus on structure-property correlations and performance improvement of engineering alloys. Dr. Arohi has collaborated with premier institutions and industries, producing impactful research publications. His academic and research journey demonstrates a strong commitment to advancing materials science for critical applications in aerospace and structural engineering.
Professional Profile
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Education
Dr. Arohi pursued his doctoral studies in metallurgical and materials engineering at a leading Indian Institute of Technology, where his research focused on processing-induced microstructural evolution and property modification of titanium alloys. He completed his master’s degree at a National Institute of Technology with specialization in fatigue behavior of near alpha titanium alloys for aeroengine applications. His undergraduate degree in mechanical engineering provided a broad technical foundation, strengthening his understanding of materials behavior and engineering applications. Throughout his academic journey, he developed skills in advanced experimental techniques, data analysis, and collaborative research, which established a solid platform for his current academic and scientific contributions.
Professional Experience
Dr. Arohi has worked as a project scientist and institute post-doctoral fellow at leading Indian Institutes of Technology. His professional roles include investigating microstructural transformations, mechanical properties, and corrosion resistance of advanced alloys. He has contributed to industry-sponsored projects focusing on titanium alloys and collaborated with defense and aerospace research organizations. His experience spans additive manufacturing, thermomechanical processing, and advanced characterization methods. Additionally, he has provided teaching and research assistance, supporting courses and mentoring postgraduate students. His professional journey reflects a blend of academic research and practical problem-solving in materials science, enhancing the performance of engineering alloys for high-demand applications.
Awards and Recognition
Dr. Arohi has received several awards and honors for his research and academic contributions in materials engineering. He has secured top positions in national-level conferences and research scholar competitions for his innovative work on titanium alloys and fatigue behavior. His research presentations have been recognized with first and second prizes in poster and thesis categories, highlighting the originality and depth of his work. He has been selected for prestigious research collaborations at reputed institutions and acknowledged for his role in advancing microstructural and mechanical property correlations in engineering materials. These recognitions demonstrate his commitment to impactful and innovative research in materials science.
Research Skills
Dr. Arohi possesses extensive expertise in advanced characterization techniques such as microscopy, diffraction, spectroscopy, and mechanical testing. He has worked on microstructural analysis, nanoindentation, fatigue testing, and corrosion studies of metallic systems. His research extends to additive manufacturing, casting, rolling, and thermomechanical processing of advanced alloys. Proficiency in specialized software tools supports his ability to analyze complex material behaviors. His research integrates experimental investigations with practical applications, enabling the development of optimized processing strategies for high-performance alloys. By applying multidisciplinary approaches, he contributes to improved understanding of structure-property relationships, with applications in aerospace, defense, and industrial materials engineering.
Notable Publications
Microstructure, corrosion and mechanical behavior of 15-5 PH stainless steel processed by direct metal laser sintering
Author: I Avula, AC Arohi, CS Kumar, I Sen
Journal: Journal of Materials Engineering and Performance 30 (9), 6924-6937
Year: 2021
Citations: 21
Effect of thermomechanical processing on microstructure evolution and mechanical properties of metastable β Ti–5Al–5V–5Mo–3Cr alloy
Author: AC Arohi, S Shekhar, I Sen
Journal: Materials Chemistry and Physics 314, 128809
Year: 2024
Citations: 19
Stress-induced martensitic transformation during cold rolling of metastable β Ti–5Al–5V–5Mo–3Cr alloy
Author: AC Arohi, S Shekhar, I Sen
Journal: Materials Science and Engineering: A 911, 146910
Year: 2024
Citations: 11
A review on micro-mechanical testing of NiTi-based shape memory alloys
Author: SS Kumar, AC Arohi, I Sen
Journal: Journal of the Indian Institute of Science 102 (1), 211-235
Year: 2022
Citations: 10
Microstructural effects on the ambient temperature indentation creep behavior of metastable β Ti-5Al-5V-5Mo-3Cr alloy
Author: AC Arohi, S Shekhar, I Sen
Journal: Materials Today Communications 38, 107834
Year: 2024
Citations: 7
Conclusion
Dr. Arohi’s career reflects a strong foundation in metallurgical and materials engineering, marked by excellence in education, research, and professional achievements. His contributions span fundamental studies of titanium alloys to applied research in additive manufacturing and advanced composites. Recognized for his innovative research and academic involvement, he has made impactful contributions through publications, conference presentations, and collaborations with industry and academia. With expertise in microstructural evolution, mechanical properties, and corrosion behavior, his work enhances the reliability and performance of engineering materials. Dr. Arohi continues to advance scientific knowledge and technological progress in the field of materials science and engineering.