Amin Jafari-Ramiani | Materials Science | Best Researcher Award

Dr. Amin Jafari-Ramiani | Materials Science | Best Researcher Award

Assistant Professor at Amirkabir University of Technology (Tehran Polytechnic), Materials and Metallurgical Engineering, Iran.

🌍Amin Jafari-Ramiani is an Assistant Professor at Amirkabir University of Technology with a focus on computational materials engineering (CME), multiphase transport phenomena, non-equilibrium thermodynamics, and magnetohydrodynamics. He has been a certified scholar since 2002, with expertise in mathematical modeling and simulation of metallurgical processes such as casting, welding, and solidification. His research contributions extend to the development of software and tools like SENSE for industrial problem-solving, along with numerous publications and patents. His academic background and continuous drive for innovation position him as a strong candidate for the Best Researcher Award.

Profile👤

Education 🎓

🎓Amin Jafari-Ramiani completed his academic journey with a strong foundation in computational materials engineering. He earned his degrees from reputable institutions, with a particular focus on mathematical modeling and simulation in the context of industrial applications. His academic career has been marked by significant contributions to fields such as non-equilibrium thermodynamics and multiphase transport phenomena. His education equips him with the technical skills to address complex challenges in metallurgical processes and material engineering. Additionally, his interest in the philosophy of science and computational thinking enhances his approach to research and education, offering interdisciplinary insights to his students and collaborators.🧬🎓

Experience💼

🩺Amin Jafari-Ramiani has over two decades of experience in both academic and industrial projects. As an Assistant Professor at Amirkabir University of Technology, he has designed and delivered lectures in computational materials engineering, focusing on advanced topics such as casting, welding, solidification, and thermodynamics. He has led numerous research projects, resulting in the development of industrial solutions and publications in prestigious journals. His experience also extends to consulting in Computational Materials Engineering (CME), where he has worked on high-impact projects addressing real-world engineering challenges. In addition, he has contributed to the development of software tools like SENSE, which aids in solving complex metallurgical and material engineering problems. He is also active in various professional societies and has editorial responsibilities in academic journals.👨‍🔬🌍

Research Interests 🔬

🔬Amin Jafari-Ramiani’s research focuses on advancing Computational Materials Engineering (CME), with particular attention to the modeling and simulation of metallurgical processes such as casting, welding, and solidification. He also specializes in multiphase transport phenomena, non-equilibrium thermodynamics, and magnetohydrodynamics. His work seeks to improve the efficiency and accuracy of mathematical models in engineering applications, contributing to the development of innovative solutions for industrial problems. Jafari-Ramiani’s research aims to bridge the gap between theory and practical implementation, addressing complex challenges in materials engineering and supporting the development of more sustainable and efficient industrial processes. His contributions have significant implications for various sectors, including the metallurgical, energy, and manufacturing industries. 🌿🧪

Awards and Honors 🏆

🏆Amin Jafari-Ramiani has received various accolades for his work in Computational Materials Engineering. His contributions to the field of metallurgical process modeling, thermodynamics, and magnetohydrodynamics have been recognized through both academic and industry awards. His research papers have been widely cited, further cementing his status as a leading expert in his field. In addition to these academic honors, Jafari-Ramiani holds a patent for an industrial solution that addresses critical engineering challenges. His continuous collaboration with international scholars and professional organizations like the Iranian Society of Engineering Education, Iran Iron & Steel Society, and Iranian Foundrymen Society underscores his ongoing commitment to advancing the field of engineering. 🏆🎉

Conclusion 🔚 

Amin Jafari-Ramiani’s research excellence, diverse expertise, and innovative approach to computational materials engineering make him a remarkable candidate for the Best Researcher Award. His continuous contributions to academia and industry highlight his commitment to pushing the boundaries of scientific knowledge and technological advancement.

Publications Top Notes 📚

Efficient energy absorption of functionally-graded metallic foam-filled tubes under impact loading
Authors: M Salehi, SMH Mirbagheri, A Jafari-Ramiani
Citations: 41
Year: 2021

Contribution of forced centreline convection during direct chill casting of round billets to macrosegregation and structure of binary Al–Cu aluminium alloy
Authors: DG Eskin, A Jafari-Ramiani, L Katgerman
Citations: 29
Year: 2011

Deformation Behavior and Crashworthiness of Functionally Graded Metallic Foam-Filled Tubes Under Drop-Weight Impact Testing
Authors: M Salehi, SMH Mirbagheri, A Jafari-Ramiani
Citations: 10
Year: 2020

Numerical modeling of macrosegregation during the direct-chill casting of an Al alloy billet
Authors: A Jafari-Ramiani, SH Seyedein, MR Aboutalebi, DG Eskin, L Katgerman
Citations: 10
Year: 2010

Numerical investigation of heat, flow and particle trajectory in A-TIG welding pool of 304L-SS
Authors: S Pourmand, A Jafari-Ramiani, A Ebrahimi
Citations: 8
Year: 2020

Experimental, theoretical, and numerical investigations into the compressive behavior of multi-layer metallic foam filled tubes
Authors: M Salehi, SMH Mirbagheri, A Jafari Ramiani
Citations: 7
Year: 2022

Modeling of heat transfer and solidification of droplet/substrate in microcasting SDM process
Authors: A Jafari-Ramiani, SH Seyedein, M Haghpanahi
Citations: 7*
Year: 2008

Phase change modelling with flexible source-based kinetics for non-equilibrium transitions
Authors: A Jafari-Ramiani
Citations: 6*
Year: 2020

Semi-implicit method for thermodynamically linked equations in phase change problems (SIMTLE)
Authors: A Jafari-Ramiani, SH Seyedein, MR Aboutalebi
Citations: 6
Year: 2011

Iterative standard strategy for non-linear optimization in melting furnace charge calculations
Authors: A Jafari-Ramiani, D Yousefi, M Mohajeri
Citations: 4
Year: 2021

 

 

Epiphane Zingbe | Materials Science | Best Researcher Award

Mr. Epiphane Zingbe | Materials Science | Excellence in Innovation

Doctorant at Regional Center of Excellence for Energy Management, Benin.

🌍Epiphane Zingbe is a multifaceted professional with a strong background in renewable energy, education, and community engagement. Currently pursuing a Ph.D. at the University of Lomé, Togo, he specializes in microbial fuel cell technology, synthesizing bio-char for bioelectrodes, and conducting advanced electrochemical measurements. With extensive teaching experience across various institutions in Benin and active roles in community leadership, he combines technical expertise with a passion for education and societal betterment. His research in sustainable energy positions him as a promising candidate for the Excellence in Innovation Award.

Profile👤

Education 🎓

🎓Epiphane Zingbe holds a Master’s degree in Energy Efficiency and Renewable Energy from EPAC, University of Abomey-Calavi (2018) and a Maîtrise ès-Sciences in Physical Sciences from the same university (2013). He is currently pursuing his Ph.D. at the Centre d’Excellence Régional pour la Maîtrise de l’Électricité (CERME), University of Lomé, where his research focuses on microbial fuel cell technology. His education highlights a deep commitment to sustainable energy.

Experience💼

🩺Epiphane has extensive professional experience, including teaching positions at UPI ONM Abomey and CEG1 Bohicon, where he taught material sciences, physics, and general electricity. As an NGO education coordinator, he managed programs to enhance learning in the ZOU region. Since 2021, his Ph.D. research involves developing bioelectrodes and using potentiostat/galvanostat systems for energy applications, demonstrating his expertise in both academia and applied science.

Research Interests 🔬

🔬Epiphane Zingbe’s research is centered on microbial fuel cell technology, synthesizing bio-char for bioelectrodes, and leveraging sustainable materials for clean energy applications. His work contributes to advancements in renewable energy, aiming to create efficient and cost-effective solutions for global energy challenges. This focus aligns with global priorities in sustainability and innovation.

Awards and Honors 🏆

🏆While specific awards are not listed in his profile, Epiphane’s leadership roles and contributions to education and renewable energy research suggest recognition for his dedication. Notable achievements include coordinating education programs for NGOs and advancing innovative renewable energy research. Further accolades are likely as he continues to publish and innovate.

Conclusion 🔚 

Epiphane Zingbe demonstrates exceptional potential for the Excellence in Innovation Award due to his pioneering work in sustainable energy and bioelectrodes. By increasing his publication output and emphasizing the societal impact of his innovations, he could establish himself as a global leader in renewable energy solutions.

Publications Top Notes 📚

Elaboration and Characterization of Electrodes from Robinia pseudoacacia and Azadirachta indica Charcoal Powder with Coconut Bio-Pitch as a Binder

Authors: E. Zingbe, D. M. Kongnine, B. M. Agbomahena, P. Kpelou, E. Mouzou

Journal: Materials, Volume 17, Issue 21, Article 5156

Year: 2024

Citations: Not available yet

Étude de l’évolution de l’absorption du film organique P3HT-PCBM par caractérisation UV-visible

Authors: E. Zingbe, M. B. Agbomahena, B. Kounouhewa

Institution: EPAC/UAC

Year: 2018

Citations: Not available yet