Directory at the HPC²
Biography
Dr. Hongjoo Rhee is an Associate Director for the Engineering Mechanics and Materials Science (EMMS) thrust at the Center for Advanced Vehicular Systems (CAVS) and Associate Professor in the Department of Mechanical Engineering, Mississippi State University (MSU). He earned his Ph.D. degree in Chemical Engineering and Materials Science from Michigan State University, East Lansing, MI, and M.S. and B.S. degrees in Metallurgical Engineering from Inha University, Incheon, South Korea. He held positions as an Associate Research Professor at CAVS, MSU, 2015-2018; an Assistant Research Professor at CAVS, MSU, 2009-2015; as a Post-doctoral Associate at CAVS, MSU, 2006-2009; as a Visiting Research Associate, a Research Assistant, and a Teaching Assistant at Michigan State University, 2000-2005; as a Research Staff at Inha University, 1998-1999; and worked as an Assistant Manager and a Research Staff at R&D Center for Metallurgy, KIA Steel Co., Ltd., Seoul/Kunsan, South Korea, 1992-1998.
Research Interest
Steel Alloy Design and Process Optimization; Bio-Inspired Materials Design; Next Generation Advanced High Strength Steels (AHSS) Design; Novel Metal Matrix Metallic Composites Design; High Strain Rate Material Testing and Model Development; Site-Specific Studies on Inhibition Layer Formation and Galvanneal Growth on AHSS; Domestic and International Collaborative Research Program Development; Simulation of Weld Joints Subject to Fatigue, Corrosion, and Blast; Microstructure-Property Responses of Biological and Synthetic Foams at Different Strain Rate Regimes; Materials Design for Mg Alloys; Process Simulation for Hot Press Forming; Modeling in the Resistance Spot Welding of Mg Alloy; Additive Manufacturing Process and Performance Modeling; Material Database and Model Development for Polymeric Materials.
Other research interests include, but not limited to:
materials and mechanical properties characterization; model development, calibration, and validation for various alloys; characterization of protective metallic coating processes; multiscale chemistry-process-structure-property-performance relations characterization; functionally gradient materials (FGM) designing and manufacturing process; lead-free solder joints characterization; steel manufacturing process; specialty steels development and evaluation; heat treatments; nanoindentation; thermomechanical fatigue (TMF); stress relaxation; plasma sprayed coatings characterization, etc.
Other research interests include, but not limited to:
materials and mechanical properties characterization; model development, calibration, and validation for various alloys; characterization of protective metallic coating processes; multiscale chemistry-process-structure-property-performance relations characterization; functionally gradient materials (FGM) designing and manufacturing process; lead-free solder joints characterization; steel manufacturing process; specialty steels development and evaluation; heat treatments; nanoindentation; thermomechanical fatigue (TMF); stress relaxation; plasma sprayed coatings characterization, etc.
Selected Publications
Total Publications: 82
Paudel, Y. R., Williams, A., Mujahid, S., Pepi, M., Czech, P., Rhee, H., & El Kadiri, H. (2024). A Residual Stress-Based Model for Viscoplastic Self-Consistent Simulation of Cold-Sprayed Al6061. Journal of Materials Engineering and Performance. Springer US. 33, 7744-7754. [Document Site]
Williams, A., Paudel, Y. R., Mujahid, S., Pepi, M., Czech, P., El Kadiri, H., & Rhee, H. (2024). Crystal Plasticity Modeling to Capture Microstructural Variations in Cold-Sprayed Materials. Crystals. MDPI. 14(4), 329.
Stewart, B. C., Doude, H., Mujahid, S., Abney, M. B., Fox, E. T., Edmunson, J. E., Mehan, J. J., Henry, C. R., Hall, P. B., El Kadiri, H., & Rhee, H. (2023). Comparison Study of Ductile Iron Produced with Martian Regolith Harvested Iron from Ionic Liquids and Bosch Byproduct Carbon for In-situ Resource Utilization versus Commercially Available 65-45-12 Ductile Iron. Advances in Space Research. 71(5), 16. DOI:10.1016/j.asr.2022.10.060. [Abstract] [Document Site]
Aslam, I., Li, B., Martens, R., Goodwin, J., Rhee, H., Horstemeyer, M., & Goodwin, F. (2016). Site-specific studies on the interfacial structures of galvanized dual phase steels. Characterization of Minerals, Metals, and Materials. Wannendale, PA. 1, 183-192.
Aslam, I., Li, B., Martens, R. L., Goodwin, J. R., Rhee, H., & Goodwin, F. (2016). Transmission Electron Microscopy Characterization of the Interfacial Structure of a Galvanized Dual-Phase Steel. Materials Characterization. 120, 63-68.
Williams, A., Paudel, Y. R., Mujahid, S., Pepi, M., Czech, P., El Kadiri, H., & Rhee, H. (2024). Crystal Plasticity Modeling to Capture Microstructural Variations in Cold-Sprayed Materials. Crystals. MDPI. 14(4), 329.
Stewart, B. C., Doude, H., Mujahid, S., Abney, M. B., Fox, E. T., Edmunson, J. E., Mehan, J. J., Henry, C. R., Hall, P. B., El Kadiri, H., & Rhee, H. (2023). Comparison Study of Ductile Iron Produced with Martian Regolith Harvested Iron from Ionic Liquids and Bosch Byproduct Carbon for In-situ Resource Utilization versus Commercially Available 65-45-12 Ductile Iron. Advances in Space Research. 71(5), 16. DOI:10.1016/j.asr.2022.10.060. [Abstract] [Document Site]
Aslam, I., Li, B., Martens, R., Goodwin, J., Rhee, H., Horstemeyer, M., & Goodwin, F. (2016). Site-specific studies on the interfacial structures of galvanized dual phase steels. Characterization of Minerals, Metals, and Materials. Wannendale, PA. 1, 183-192.
Aslam, I., Li, B., Martens, R. L., Goodwin, J. R., Rhee, H., & Goodwin, F. (2016). Transmission Electron Microscopy Characterization of the Interfacial Structure of a Galvanized Dual-Phase Steel. Materials Characterization. 120, 63-68.
