Dr. Mainak Saha | Materials Chemistry | Best Researcher Award

Postdoctoral Researcher | National Institute for Materials Science | Japan

Dr. Mainak Saha is an emerging materials science researcher whose work demonstrates notable advancements in additive manufacturing, alloy development, and microstructural engineering, with a strong focus on designing high-performance metal matrix composites and understanding the intricate relationships between processing conditions, segregation behavior, and resulting mechanical properties. With a portfolio comprising 14 peer-reviewed publications and 86 citations, supported by an h-index of 5 , his contributions reflect a growing influence within the global materials research community. His studies frequently explore the development of lightweight, high-strength alloy systems, the thermodynamic and kinetic factors governing phase formation, and strategies for microstructural refinement that enhance strength, durability, and thermal stability in engineered metals. Notably, his research on segregation-induced microstructural refinement in FeMnAlC-TiB metal matrix composites produced via laser powder bed fusion  highlights his expertise in advanced manufacturing pathways and his ability to integrate metallurgical principles with cutting-edge fabrication technologies. Dr. Saha has collaborated with over 80 co-authors, illustrating his active participation in multidisciplinary research teams and underscoring his capacity to contribute significantly to collaborative scientific initiatives . His work intersects with critical industrial fields such as transportation, energy, and high-performance manufacturing, where the need for innovative, lightweight, corrosion-resistant, and structurally reliable materials is rapidly increasing. Through his research, he contributes to solving practical engineering challenges, improving manufacturing efficiency, and supporting global efforts toward sustainable, high-performance material solutions. His scientific output reflects both academic rigor and technological relevance, bridging fundamental metallurgical science with applied engineering innovation. As he continues to expand his research portfolio, Dr. Saha’s contributions are expected to further influence materials design methodologies, support the development of next-generation structural materials, and strengthen the broader scientific understanding of microstructure-property relationships in advanced alloys .