AY 2024-25 M.Tech. (Non-fellowship) Admissions:  | Provisionally Selected Candidates
AY 2024-25 Sem I Ph.D. Admissions:  | Provisionally Selected Candidates
AY 2024-25 M.Tech.-Ph.D. dual degree Admissions:  | Provisionally Selected Candidates
Message from Head
The Department of Metallurgical and Materials Engineering at IIT Jodhpur is working towards building future generation minds rich in skills and innovation to be the best in the outside world. Faculty Members in the department have expertise in diverse areas of Materials Engineering. They are actively involved in conducting translational research in the fundamental and applied areas of Materials Engineering. The department frequently organizes invited lectures and workshops to share research findings, train students on the state of the art experimental and computational techniques to promote the development of skill sets. read more...
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About the department
The Department of Metallurgical and Materials Engineering at IIT Jodhpur was established in 2017, and the Department is committed to high-quality education and research in the broad area of Materials Engineering. The Department continuously strives for excellence in teaching and research through innovative pedagogy and curriculum, by undertaking interdisciplinary projects, and through active collaborations with industries, R&D labs, and academia. By enabling the students to think independently and equipping them with relevant skill sets, our goal is to encourage the graduates to innovate and address present-day materials challenges to meet the needs of the country.
At present, the Department offers M.Tech., M.Tech.-Ph.D. dual degree, and Ph.D. programs. The Department's teaching and research activities cover four major streams- structural materials, functional materials, computational materials engineering, and process metallurgy. From structural materials to semiconductors, we attempt to understand the processing, composition and structure, properties, and performance of materials for deriving novel, effective, and sustainable alternatives. Currently, efforts are being made to introduce advanced concepts such as smart materials, additive manufacturing, artificial intelligence and machine learning, sensor materials, etc. as a part of solving interdisciplinary problems requiring Materials Engineering knowledge.