Stewart, B. C., Mederos, M. L., Mujahid, S., Van Iderstine, D., Edmunson, J. E., Mehan, J. J., Crawford, K. R., Hintze, P. E., Henry, C. R., Fox, E. T., Jones, J. J., Hill, C. W., Burlingame, S., Abney, M. B., & Rhee, H. (2025). Parametric Study of Martian Regolith Steel Using Ionic Liquids Iron and Bosch Byproduct Carbon for Laser Powder Bed Fusion. Journal of Ionic Liquids. Elsevier. 5(2), 100174. DOI:10.1016/j.jil.2025.100174. [Abstract] [Document Site]

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]

Stewart, B. C., Doude, H., Mujahid, S., Abney, M. B., Edmunson, J. E., Fox, E. T., Jones, J. M., Hill, C. W., Mehan, J. J., El Kadiri, H., & Rhee, H. (2023). Effects of Nickel and Manganese on Ductile Iron Utilizing Ionic Liquid Harvested Iron and Bosch Byproduct Carbon. Acta Astronautica. 204, 16. DOI:10.1016/j.actaastro.2022.12.047. [Abstract] [Document Site]

Stewart, B. C. (2022). Ferrous Alloy Manufacturing for the Martian Surface Through In-Situ Resource Utilization with Ionic Liquids Harvested Iron and Bosch Process Carbon. Mississippi State University: ProQuest Dissertations Publishing. 186. [Abstract] [Document Site]

Stewart, B. C., Doude, H., Mujahid, S., Fox, E. T., Edmunson, J. E., Abney, M. B., & Rhee, H. (2022). Novel Selective Laser Printing Via Powder Bed Fusion of Ionic Liquid Harvested Iron for Martian Additive Manufacturing. Journal of Materials Engineering and Performance. Space and Aerospace Exploration Revolution, 9. DOI:10.1007/s11665-022-06730-7. [Abstract] [Document] [Document Site]