Dr. Dhiman Kumar Das - Engineering, Mechanical Engineering - National Institute of Technology, Jamshedpur - India🏆
Professional Profiles:
Early Academic Pursuits :
His academic journey commenced at A-Zone M.P. Boys High School, Durgapur. He exhibited academic excellence from his early years, securing impressive scores in both Class X and Class XII examinations under the West Bengal Board of Secondary Education and the West Bengal Council of Higher Secondary Education, respectively.
Professional Endeavors :
He pursued his higher education at National Institute of Technology (NIT), Durgapur, for both his Bachelor's and Master's degrees in Mechanical Engineering and Advanced Material Science and Technology, respectively. He further extended his academic horizons by pursuing a Doctorate in Management from Kazian School of Management, where he excelled and graduated with distinctions.
Contributions and Research Focus in Mechanical Engineering:
His research interests span across multiple domains, including Molecular Dynamics Simulation, Mechanical Properties of Plumbene and Graphene, and the Design of Slider Crank Mechanism in CATIA V5. His professional journey includes industrial training at SAIL, Durgapur, and Basic Autonomous Robotics Training at ARELAB, Kolkata. Moreover, he has contributed extensively as a Reviewer for various renowned international scientific journals, showcasing his expertise and commitment to scientific advancement.
Accolades and Recognition :
His academic achievements, such as qualifying in prestigious examinations like WBJEE, AIEEE, and GATE, have marked his excellence in the field. His scholarly work, including publications cited by SAO/NASA ADS Physics Abstract Service, demonstrates his impactful contributions to scientific literature.
Impact and Influence :
Through his research pursuits and academic contributions, he has significantly influenced the field of material science, specifically in areas related to graphene, silicene, and other advanced materials. His active involvement as a Reviewer in esteemed scientific journals signifies his role in shaping and evaluating scientific research.
Legacy and Future Contributions :
His legacy lies in his noteworthy academic achievements, diligent research contributions, and scholarly publications that have contributed to the advancement of material science and related fields. His future contributions are anticipated to further enrich scientific knowledge, potentially pioneering breakthroughs in materials technology and scientific inquiry.
Notable Publications :
- Molecular dynamics simulation study to evaluate mechanical properties of plumbene using bending, oscillation and equilibrium MD approaches
- Variation of heat flow rate of vertically arranged plumbene sheets with number of layers and sample size
- Estimating thermal properties of plumbene by multiscale modeling using molecular dynamics simulation technique
- A study on the tensile force and shear strain of trilayer graphene
- Enhanced strength in novel nanocomposites prepared by reinforcing graphene in red soil and fly ash bricks