{100} texture evolution in bcc Fe sheets-Computational design and experiments KM Kim, HK Kim, JY Park, JS Lee, SG Kim, NJ Kim, BJ Lee Acta Materialia 106, 106-116, 2016 | 31 | 2016 |
2.3 GPa cryogenic strength through thermal-induced and deformation-induced body-centered cubic martensite in a novel ferrous medium entropy alloy H Kwon, P Sathiyamoorthi, GM Karthik, P Asghari-Rad, A Zargaran, ... Scripta Materialia 204, 114157, 2021 | 30 | 2021 |
3D simulations of grain growth in polycrystalline sheets and rods: Effects of free surface and shape of specimen JS Lee, BJ Lee, YM Koo, SG Kim Scripta Materialia 110, 113-116, 2016 | 9 | 2016 |
A comparative study on grain boundary segregation and solute clustering in Mg-Al-Zn and Mg-Zn-Ca alloys HS Jang, D Seol, BJ Lee Journal of Alloys and Compounds 894, 162539, 2022 | 20 | 2022 |
A comparative study on hydrogen diffusion in amorphous and crystalline metals using a molecular dynamics simulation BM Lee, BJ Lee Metallurgical and Materials Transactions A 45, 2906-2915, 2014 | 52 | 2014 |
A full-scale Monte Carlo Potts model and real time conversion under non-uniform temperature distribution SH Oh, M Lee, BJ Lee Materials & Design 225, 111439, 2023 | 5 | 2023 |
A modified embedded atom method interatomic potential for carbon BJ Lee, JW Lee Calphad 29 (1), 7-16, 2005 | 92 | 2005 |
A modified embedded atom method interatomic potential for silicon BJ Lee Calphad 31 (1), 95-104, 2007 | 101 | 2007 |
A modified embedded atom method interatomic potential for the Cu–Ni system BJ Lee, JH Shim Calphad 28 (2), 125-132, 2004 | 37 | 2004 |
A modified embedded-atom method interatomic potential for Germanium EH Kim, YH Shin, BJ Lee Calphad 32 (1), 34-42, 2008 | 27 | 2008 |
A modified embedded-atom method interatomic potential for indium EC Do, YH Shin, BJ Lee Calphad 32 (1), 82-88, 2008 | 31 | 2008 |
A modified embedded-atom method interatomic potential for ionic systems: E Lee, KR Lee, MI Baskes, BJ Lee Physical Review B 93 (14), 144110, 2016 | 37 | 2016 |
A modified embedded-atom method interatomic potential for the Cu–Zr system YM Kim, BJ Lee Journal of Materials Research 23 (4), 1095-1104, 2008 | 58 | 2008 |
A modified embedded-atom method interatomic potential for the Fe–C system BJ Lee Acta materialia 54 (3), 701-711, 2006 | 212 | 2006 |
A modified embedded-atom method interatomic potential for the Fe–H system BJ Lee, JW Jang Acta materialia 55 (20), 6779-6788, 2007 | 90 | 2007 |
A modified embedded-atom method interatomic potential for the Fe–N system: A comparative study with the Fe–C system BJ Lee, TH Lee, SJ Kim Acta materialia 54 (17), 4597-4607, 2006 | 90 | 2006 |
A Modified Embedded-Atom Method Interatomic Potential for the Mg–Mn Binary System HS Jang, BJ Lee Materials Transactions 63 (10), 1359-1368, 2022 | 2 | 2022 |
A modified embedded-atom method interatomic potential for the V–H system JH Shim, YS Lee, E Fleury, YW Cho, WS Ko, BJ Lee Calphad 35 (3), 302-307, 2011 | 9 | 2011 |
A neural network model for high entropy alloy design J Wang, H Kwon, HS Kim, BJ Lee npj Computational Materials 9 (1), 60, 2023 | 22 | 2023 |
A new strategy for designing immiscible medium-entropy alloys with excellent tensile properties J Moon, JM Park, JW Bae, HS Do, BJ Lee, HS Kim Acta Materialia 193, 71-82, 2020 | 96 | 2020 |