| Hyoung Seop Kim 杰出访问教授 韩国浦项科技大学讲席教授,韩国科学技术翰林院院士,韩国工程院院士 |
个人简介
Hyoung Seop Kim是韩国科学技术翰林院院士,韩国工程院院士,韩国异质金属材料增材制造国家工程研究中心(ERC)主任,浦项科技大学SeAH讲席教授。长期从事纳米金属结构材料的制备和加工,担任Metals and Materials International等期刊主编,Materials Research Letters等多个国际知名期刊的编辑和编委,目前在Nature Communications、Materials Today、Progress in Materials Science、Acta Materialia、Additive Manufacturing等国际知名期刊发表了900余篇论文和专著,web of science引用次数超过26000次,H-index达到76,多次受邀在国际会议做主旨演讲。2023年荣获韩国国家科学技术奖,2024年荣获韩国金属材料学会POSCO奖,和美国矿产、金属及材料学会(TMS)MPMD杰出科学家奖,在材料科学与工程领域有着重要的影响力。
教育背景
(1) 1988-03 至 1992-02,首尔国立大学,冶金工程,博士
(2) 1986-03 至 1988-02,首尔国立大学,冶金工程,硕士
(3) 1982-03 至 1986-02,首尔国立大学,冶金工程,学士
工作履历
(1) 2008-08 至今,浦项科技大学,历任副教授,教授,讲席教授
(2) 1995-03 至 2008-08,忠南国立大学,历任助理教授,副教授,教授
(3) 1994-03 至 1995-02,韩国先进工程研究院,高级研究员
(4)1992-03 至 1994-02,韩国东部制铁研究所,首席研究员
学术成果
(1) Active Learning Framework to Optimize Process Parameters for Additive-manufactured Ti-6Al-4V with High Strength and Ductility, Nature Communications (2025) 16, 931;
(2) Material-Agnostic Machine Learning Approach Enables High Relative Density in Powder Bed Fusion Products, Nature Communications 14, 6557 (2023);
(3) Mechanically driven short-range order and its impact on the multiple-principal-element alloys, Nature Comm. (2022) 13, 6766;
(4) Phase-selective recrystallization makes eutectic high-entropy alloys ultra-ductile, Nature Comm. (2022) 13, 4697;
(5) Ultrahigh high-strain-rate superplasticity in a high-entropy alloy, Nature Comm. (2020) 11, 2736;
(6) Cryogenic strength improvement by utilizing room-temperature deformation twinning in a partially recrystallized VCrMnFeCoNi high-entropy alloy, Nature Comm. (2017) 8, 15719;
(7) Computation- and process-based design for advanced structural high-entropy alloy development and analyses: A critical review, Progress in Materials Science (2026) 155, 101534;
(8) Tailoring the strengthening mechanisms of high-entropy alloys toward excellent strength-ductility synergy by metalloid silicon alloying: A review, Progress in Materials Science (2024) 144, 101295;
(9) Recent advances in processing, and mechanical, thermal and electrical properties of Cu-SiC metal matrix composites prepared by powder metallurgy, Progress in Materials Science (2023) 140, 101191;
(10) Processing and Microstructure of Ti-Cu Binary Alloys: A Comprehensive Review, Progress in Materials Science (2022) 127, 100933.
(11) Compositional design and synergistic deformation mechanisms of a lightweight Ti-Al-V-Cr-Zr-Mo medium-entropy alloy, Acta Materialia (2025) 301, 121592;
(12) Precipitate evolution in an ultrahigh-strength, carbon-impurity- enhanced maraging steel manufactured via laser powder bed fusion, Acta Mater. (2025) 300, 121455;
(13) Complex deformation behavior of a partially recrystallized metastable medium-entropy alloy through in-situ synchrotron X-ray diffraction, Acta Materialia (2025) 286, 120757;
(14) Interpretable and Physics-Informed Modeling of Solidification in Alloy Systems: A Generalized Framework for Multi-Component Prediction, Acta Materialia (2025) 286, 120716;
(15) Cryogenic deformation strengthening mechanisms in FeMnSiNiAl high-entropy alloys, Acta Materialia (2025) 283, 120554.
