Bio
Kazi Moshiur Rahman is a Postdoctoral Research Associate within the Manufacturing Science Division at Oak Ridge National Laboratory. His current research focus is materials design and characterization for the wire-arc based metal big area additive manufacturing (mBAAM). Previously, Kazi developed manufacturing processes for energy efficient applications using Binder Jet Additive Manufacturing technologies. Through his research, Kazi reveals the underlying science at the interface of materials and manufacturing.
Kazi received his Ph.D. in Mechanical Engineering from Virginia Tech in December 2022. His dissertation topic was "Binder - Powder Interaction: Investigating the Process - Property Relations in Metal Binder Jetting", where he studied the interaction of binder and metal powders and the influences on subsequent part properties, implemented new processing methods for improved part properties, and introduced techniques for novel applications using Binder Jet technologies. He also has an M.S. in Mechanical Engineering from South Dakota State University and a B.S. in Mechanical Engineering from Islamic University of Technology (IUT), Bangladesh.
Education
Ph.D., Mechanical Engineering, Virginia Tech, Blacksburg, VA (2022)
M.S., Mechanical Engineering, South Dakota State University, Brookings, SD (2016)
B.S., Mechanical Engineering, Islamic University of Technology, Dhaka, Bangladesh (2012)
Professional Affiliations
Society of Manufacturing Engineers (SME)
American Society of Mechanical Engineers (ASME)
Other Publications
Rahman, K. M., Miyanaji, H., & Williams, C. B. (2023). Effects of binder droplet size and powder particle size on binder jetting part properties. Rapid Prototyping Journal, 29(8), 1715-1729.
Rahman, K. M., Wei, A., Miyanaji, H., and Williams, C.B. (2023). Impact of Binder on Part Densification: Enhancing Binder Jetting Part Properties through the Fabrication of Shelled Geometries. Additive Manufacturing, 62, 103377
Miyanaji, H., Rahman, K. M., Da, M., and Williams, C. B. (2020). Effect of fine powder particles on quality of binder jetting parts. Additive Manufacturing, 36, 101587.
Rahman, K. M., Hu, Z., and Letcher, T. (2018). In-plane stiffness of additively manufactured hierarchical honeycomb metamaterials with defects. Journal of Manufacturing Science and Engineering, 140(1)
Rahman, K. M., Letcher, T., and Hu, Z. (2016, November). Effects of defects on the performance of hierarchical honeycomb metamaterials realized through additive manufacturing. In ASME International Mechanical Engineering Congress and Exposition (Vol. 50527, p. V002T02A028). American Society of Mechanical Engineers.
Rahman, K. M., Letcher, T., and Reese, R. (2015, November). Mechanical properties of additively manufactured PEEK components using fused filament fabrication. In ASME International Mechanical Engineering Congress and Exposition (Vol. 57359, p. V02AT02A009). American Society of Mechanical Engineers.
Rasel, M. A. I., Siraj, S., and Rahman, K. M. (2012).Prospect of renewable energy as the solution of the existing energy crisis of Bangladesh. International Journal of Scientific and Engineering Research, 3, 3 -5, ISSN 2229-5518.