Faculty of Mechanics Department, Technical and Vocational University, Tehran, Iran
Dr. Mohammad Reza Samadi is an esteemed academic and researcher in Mechanical Engineering with a focus on Manufacturing and Production. Holding a Ph.D. in Mechanical Engineering, he has extensive experience in areas like welding, non-destructive testing (NDT), and advanced manufacturing processes. His impressive portfolio includes numerous certifications in Biotechnology, Materials and Metallurgy, and Industrial Inspection. As an award-winning researcher, Dr. Samadi has contributed significantly to the academic and industrial spheres through his research in nanocomposites, friction stir welding, and laser welding.
Profile
Scopus
Educationđ
Dr. Mohammad Reza Samadi completed his Ph.D. in Mechanical Engineering with a specialization in Manufacturing and Production, solidifying his expertise in cutting-edge manufacturing technologies. He also holds various international certifications in Biotechnology, Materials and Metallurgy, and Industrial Inspection, demonstrating his commitment to continuous professional development in the field of engineering.
ExperienceđŒ
With years of academic and industry experience, Dr. Samadi has excelled in research and teaching. He has authored several textbooks on welding processes, which are widely used in vocational and technical universities for training future engineers. His contributions extend beyond academia, as he is also engaged in applied research projects that enhance industrial manufacturing processes. Additionally, Dr. Samadi serves as a judge and reviewer for scientific conferences and technological projects, further cementing his role as a leader in the academic community.
Research InterestsđŹ
Welding & Non-Destructive Testing (NDT)đ ïž
A significant portion of Dr. Samadiâs research focuses on welding processes, aiming to improve their efficiency and effectiveness. Additionally, his work on non-destructive testing (NDT) seeks to advance the ability to assess the integrity of materials without damaging them, ensuring that manufactured products meet stringent safety and quality standards.
Nanocomposites in ManufacturingđŹ
Dr. Samadi explores the application of nanocomposites, materials that combine nanoparticles with polymers or metals to create superior materials with enhanced properties like strength, flexibility, and resistance to wear. His research in this area supports innovations in manufacturing processes, leading to the creation of lighter, stronger, and more durable materials.
Laser Welding Technologiesâïž
Laser welding is another area of interest in Dr. Samadi's research, where he investigates the benefits and challenges of using laser technology for precise, high-quality welding. This technology has applications in industries requiring fine, high-performance manufacturing, including electronics and automotive production.
Bridging Mechanical Engineering and Industrial Applicationsđ
Dr. Samadi's interdisciplinary approach bridges the gap between theoretical mechanical engineering and practical industrial applications. His research is not only focused on theoretical advancements but also on their real-world implementation, helping to optimize manufacturing efficiency and improve product quality across a variety of industries.
Awardsđ
Dr. Samadi has been recognized multiple times for his research excellence, including receiving the "Best Researcher" award at both the university and provincial levels.
He has also earned silver medals at international innovation festivals, such as the prestigious Silicon Valley International Festival.
His outstanding contributions to research have been acknowledged globally, with numerous awards for his scientific presentations at national and international conferences.
Publications Top Notesđ
Optimization of FFF process parameters to improve the tensile strength and impact energy of polylactic acid/carbon nanotube composite, Authors: Hardani, H., Afshari, M., Allahyari, F., Afshari, H., Medina, E.M.M. Published in: Polymer Engineering and Science, 2024, 64(10), pp. 5047â5060. Link
Investigation of the effect of sintering process parameters on the corrosion, wear and hardness of WâCu composite, Authors: Selahshorrad, E., Alavi, S.A., Zangeneh-Madar, K., Yazdanshenas, M., Afshari, M. Published in: Sadhana - Academy Proceedings in Engineering Sciences, 2024, 49(3), 209. Link
Design and optimization of mechanical and electromagnetic properties of GFRP composite, Authors: Talei-Fard, E., Parsa, H., Afshari, M., Samadi, M.R., Afshari, H. Published in: Journal of Materials Science: Materials in Electronics, 2024, 35(22), 1514. Link
Optimizing the sintering process parameters for simultaneous improvement of the compression strength, impact strength, hardness and corrosion resistance of WâCu nanocomposite, Authors: Samadi, M.R., Zeynali, E., Allahyari, F., Zangeneh-Madar, K., Afshari, M. Published in: Modern Physics Letters B, 2024, 38(20), 2450169. Link
Studying the effects of FDM process parameters on the mechanical properties of parts produced from PLA using response surface methodology, Authors: Afshari, H., Taher, F., Alavi, S.A., Samadi, M.R., Allahyari, F. Published in: Colloid and Polymer Science, 2024, 302(6), pp. 955â970. Link