| 2024 | Dr. Simon N. Lekakh | Effect of Mold Powder Residue on Thin-Cast Slab Scale Structure Evolution During Reheating and Descaling |
| 2024 | Mr. Anthony J. Bader | Effect of Mold Powder Residue on Thin-Cast Slab Scale Structure Evolution During Reheating and Descaling |
| 2024 | Dr. Richard Osei | Effect of Mold Powder Residue on Thin-Cast Slab Scale Structure Evolution During Reheating and Descaling |
| 2024 | Mr. Dmitry Tsvetkov | Effect of Mold Powder Residue on Thin-Cast Slab Scale Structure Evolution During Reheating and Descaling |
| 2024 | Dr. Ronald J. O'Malley | Effect of Mold Powder Residue on Thin-Cast Slab Scale Structure Evolution During Reheating and Descaling |
| 2023 | Mr. Fatih Goekce | Implementation of the Tiltable Sidewall Burner at Nucor Steel Tuscaloosa Inc.: Dynamically Adjustable Burner Angle to Optimize Scrap Melting and Reduce Refractory Wear |
| 2023 | Mr. Patrick Hansert | Implementation of the Tiltable Sidewall Burner at Nucor Steel Tuscaloosa Inc.: Dynamically Adjustable Burner Angle to Optimize Scrap Melting and Reduce Refractory Wear |
| 2023 | Mr. Joseph R. Junkin | Implementation of the Tiltable Sidewall Burner at Nucor Steel Tuscaloosa Inc.: Dynamically Adjustable Burner Angle to Optimize Scrap Melting and Reduce Refractory Wear |
| 2023 | Mr. Michael M. Mayhall | Implementation of the Tiltable Sidewall Burner at Nucor Steel Tuscaloosa Inc.: Dynamically Adjustable Burner Angle to Optimize Scrap Melting and Reduce Refractory Wear |
| 2023 | Mr. Jake Franks | Implementation of the Tiltable Sidewall Burner at Nucor Steel Tuscaloosa Inc.: Dynamically Adjustable Burner Angle to Optimize Scrap Melting and Reduce Refractory Wear |
| 2023 | Mr. Justin Novotny | Implementation of the Tiltable Sidewall Burner at Nucor Steel Tuscaloosa Inc.: Dynamically Adjustable Burner Angle to Optimize Scrap Melting and Reduce Refractory Wear |
| 2023 | Mr. Phillip A. Baker | Implementation of the Tiltable Sidewall Burner at Nucor Steel Tuscaloosa Inc.: Dynamically Adjustable Burner Angle to Optimize Scrap Melting and Reduce Refractory Wear |
| 2022 | Dr. Tetsuya Nagasaka | New EAF Dust Treatment Process for Co-Production of Metallic Zinc and Calcium-Ferrite |
| 2022 | Hitoshi Mizuno | New EAF Dust Treatment Process for Co-Production of Metallic Zinc and Calcium-Ferrite |
| 2022 | Kazuyoshi Yamaguchi | New EAF Dust Treatment Process for Co-Production of Metallic Zinc and Calcium-Ferrite |
| 2022 | Fumio Tanno | New EAF Dust Treatment Process for Co-Production of Metallic Zinc and Calcium-Ferrite |
| 2022 | Mr. Shunsuke Koide | New EAF Dust Treatment Process for Co-Production of Metallic Zinc and Calcium-Ferrite |
| 2021 | Mr. Herbert Castro | BOF Process Optimization and Technology Improvements at Ternium Brazil |
| 2021 | Mr. Marcos Antonio Viana Junior | BOF Process Optimization and Technology Improvements at Ternium Brazil |
| 2021 | Dr. Daniel Carvalho | BOF Process Optimization and technology Improvements at Ternium Brazil |