Vikas Kumar Singh | Engineering | Best Researcher Award

Mr. Vikas Kumar Singh | Engineering | Best Researcher Award

Indian Institute of Science | India

Author Profile

Orcid

Early Academic Pursuits

Mr. Vikas Kumar Singh began his academic journey with a Bachelor's degree in Mechanical Engineering from Dr. Sudhir Chandra Sur Degree Engineering College. He displayed exceptional academic prowess, consistently achieving high grades throughout his undergraduate studies. Subsequently, he pursued a Master's degree in Manufacturing Engineering from IIT (ISM) Dhanbad, where he further honed his skills and deepened his understanding of engineering principles. His dedication and commitment to learning paved the way for his admission to the prestigious Indian Institute of Science (IISc) for his doctoral studies in Mechanical Engineering, where he is currently pursuing research in the field of tribology.

Professional Endeavors

During his academic journey, Mr. Vikas Kumar Singh actively engaged in various research projects and collaborations. Notably, his M.Tech projects on titanium alloy sheet bending and laser cutting of Carbon Fiber Reinforced Polymer (CFRP) were conducted in collaboration with the Defence Research and Development Organisation (DRDO). His contributions to these projects demonstrated his ability to apply theoretical knowledge to real-world engineering challenges. Additionally, he gained practical experience as a Graduate Apprenticeship Trainee at Mangalore Refinery Petrochemicals Limited (MRPL), where he worked in the Mechanical Maintenance department.

Contributions and Research Focus

Mr. Vikas Kumar Singh's research primarily focuses on tribology, with a specific interest in friction studies of soft and hard materials, lubricant assessment, and the design and development of tribometers. His PhD research is centered around studying friction transition under high acceleration conditions and evaluating lubricants using energy-based approaches. Through his work, he aims to contribute to advancements in the understanding of frictional behavior and lubrication mechanisms, with potential applications in various industries, including automotive and manufacturing.

Accolades and Recognition

Throughout his academic and professional journey, Mr. Vikas Kumar Singh has garnered recognition for his outstanding contributions. He has authored/co-authored research papers published in reputed journals such as Langmuir and Tribology International, showcasing his research prowess and scholarly impact. Additionally, he has actively participated in national and international conferences, where he has presented his research findings and engaged with peers and experts in the field of tribology.

Impact and Influence

Mr. Vikas Kumar Singh's research and academic endeavors have had a significant impact on the field of tribology and engineering sciences. His contributions have expanded the knowledge frontier in understanding frictional behavior and lubrication mechanisms, thereby contributing to the development of more efficient and sustainable engineering solutions. Furthermore, his teaching experiences and position of responsibilities have enabled him to inspire and mentor future generations of engineers, leaving a lasting influence on the academic community.

Legacy and Future Contributions

As Mr. Vikas Kumar Singh continues to pursue his research and academic endeavors, he aspires to leave a lasting legacy in the field of tribology and mechanical engineering. He aims to contribute to the development of innovative solutions that address critical challenges in frictional studies and lubricant assessment, ultimately fostering advancements in industrial practices and technology. Through his dedication to excellence and his passion for engineering, he seeks to inspire and empower future generations of researchers and engineers to push the boundaries of knowledge and innovation.

Notable Publications

Lateral force controlled impact tribometer characterizing transient friction: Effect of contact pressure 2024

Evaluation of Temperature-Dependent Boundary Lubrication Behavior of Stearic Acid Using a Force-Controlled Tribometer 2024