Prof. Dr. Vikas Verma - Production - Best Researcher AwardÂ
Aqila Technologies and Integration Solutions Pvt Ltd (ATIS) - India
Author Profile
🎓 Early Academic Pursuits
Prof. Dr. Vikas Verma began his academic journey with an exceptional record in science and mathematics, graduating with distinction from St. Mary’s Convent School, Dhampur, and St. Gabriel’s Academy, Roorkee. His passion for engineering led him to pursue a B.Tech. in Mechanical Engineering from Moradabad Institute of Technology, where he achieved commendable results. He further honed his technical expertise with an M.Tech. in Mechanical Engineering from Krishna Institute of Technology, achieving an impressive 8 CGPA. His thirst for knowledge culminated in a Ph.D. from the prestigious Indian Institute of Technology (IIT) Roorkee, followed by a Postdoctoral fellowship at NUST “MISiS” Moscow, Russia, where he delved into cutting-edge research.
đź’ĽÂ Professional Endeavors
Prof. Verma’s professional career spans cross-functional roles in project management, contracts administration, technical proposals, and leadership. He has managed and led large multidisciplinary teams, overseeing technical and commercial projects with exceptional problem-solving and conflict resolution skills. His expertise in production processes and vendor management has made significant contributions to industrial and academic projects alike. As a researcher and academic leader, he has presented at esteemed institutions like the Bhabha Atomic Research Centre and Defence Metallurgical Research Lab, solidifying his reputation as a versatile professional.
🔬 Contributions and Research Focus
Prof. Verma’s research contributions encompass mechanical engineering, tribology, and advanced materials, with a particular focus on production efficiency and sustainability. His studies have been published in high-impact journals like Elsevier, Springer, and Wiley, reflecting his commitment to advancing scientific knowledge. He has also presented groundbreaking research at international conferences in Malaysia, Canada, and the USA, earning accolades like Best Paper Awards and funding from prestigious organizations. His work in high-temperature ceramic matrix composites and sustainable development materials has paved the way for innovations in the field.
🌍 Impact and Influence
Prof. Verma’s influence extends globally, as evidenced by his awards and roles in international forums. He was recognized as a Distinguished Scholar by the Scientific Award Committee Europe in 2021 and won the Young Scientist competition at NUST “MISiS” Moscow in 2018. His expertise as an expert reviewer for international projects and his participation in technical program committees have further established his stature. Prof. Verma’s research on production sustainability has had a transformative impact on industrial and academic domains, inspiring peers and students alike.
🏆Academic Cites
With numerous SCI-indexed publications and book chapters, Prof. Verma’s work enjoys high citations in research platforms like ResearchGate and Google Scholar. His contributions are highly regarded in academic circles, with his research cited extensively by professionals and institutions worldwide.
🌟 Legacy and Future Contributions
Prof. Verma’s legacy lies in his ability to bridge academic research with practical applications in production engineering and management. His leadership in sustainable industrial processes, combined with his passion for mentoring, ensures that his contributions will continue to shape the future of engineering and technology. As a session chair at global summits and a prolific researcher, he is poised to drive innovation and inspire the next generation of engineers.
đź“ťProduction
Throughout his illustrious career, Prof. Verma has significantly advanced the field of production, emphasizing sustainable practices and efficiency. His research on production systems has had a lasting impact, contributing to industrial advancements and academic progress alike.
Notable Publication
đź“ťEffect of Processing Routes on Physical and Mechanical Properties of Advanced Cermet System
Authors: Verma, V., GarcĂa-Hernández, M., Luna-DomĂnguez, J.H., Monteiro JĂşnior, S., Câmara Cozza, R.
Journal: Ceramics
Year: 2024
Citations: 1
đź“ťPerformance Analysis of a Li-Ion Battery Using Generic Electro-thermal Model Under Different Temperature and Charging/Discharging Environment
Authors: Verma, V., Kumar, B.
Series: Lecture Notes in Electrical Engineering
Year: 2024
Citations: 0
đź“ťNumerical Analysis of Design Factors in Manufacturing for Improved Energy Efficiency
Authors: Dwivedi, A.S., Kumar, P., Luna-DomĂnguez, J.H., Cozza, R.C., Verma, V.
Book: Sustainability in Smart Manufacturing: Trends, Scope, and Challenges
Year: 2024
Citations: 0
📝Synergism Between Tribological Parameters – “Micro-Abrasive Concentration Level,” “Micro-Abrasive Particle Type,” and “Liquid Type” of a Micro-Abrasive Slurry Composition on the Micro-Abrasive Wear Behaviour of Fe-30Al-6Cr (at.%) Iron Aluminide Alloy
Authors: de Paula, A.F.M., Borges, D.F.L., da Silva, F.C., Schön, C.G., Cozza, R.C.
Journal: Wear
Year: 2023
Citations: 3
📝Assessment of Micro-Abrasive Wear Tribological Properties of H10 Tool-Steel Under Conditions of “Constant Normal Force ⇒ Variable Pressure” and “Constant Pressure ⇒ Variable Normal Force”
Authors: de Matos Macedo, M., Luna-DomĂnguez, J.H., Verma, V., Schön, C.G., Cozza, R.C.
Journal: Wear
Year: 2021
Citations: 7