李雲傑

工作經歷 ^[1-2]  ：

2023.02~至今，東北大學，軋製技術及連軋自動化國家重點實驗室，教授

2020.01~2023.01，東北大學，軋製技術及連軋自動化國家重點實驗室，博士後

學習經歷 ^[1-2]  ：

2014.09~2020.01，東北大學，材料加工工程，工學博士，導師：王國棟院士、袁國教授

2010.08~2014.06，東北大學，材料成型及控制工程，工學學士

（1）先進高強度鋼基礎理論、綠色製備工藝及其產業化；（2）2000MPa級以上超高強鋼鐵材料設計及其強塑/韌化理論；（3）鋼鐵材料相變、斷裂機制等；（4）金屬材料增材製造、先進表徵等；（5）基於機器學習的金屬材料設計 ^[1-2]  。

入選國家級“四青”人才、瀋陽市傑出人才（B類）、“興遼英才”傑出人才等 ^[2]  。

長期從事先進高強鋼的基礎研究與落地轉化工作，相關成果以第一/通訊作者在Science、Scripta Materialia等期刊發表SCI論文13篇；授權國家發明專利7項；出版研究報告1部，參編鋼鐵工業協同創新關鍵技術叢書1部。

主持國家級青年人才項目、“慧眼行動”軍工項目、國家自然科學基金青年基金、中國博士後基金面上項目、西北工業大學國重開放課題以及高強氣瓶鋼開發項目等10餘項 ^[2]  。

獲遼寧省優秀博士論文、遼寧省優秀博士畢業生、瀋陽市自然科學優秀論文二等獎、東北大學十佳青年崗位能手、東北大學校長獎章等榮譽；指導學生獲挑戰杯全國銀獎、“互聯網+”省級金獎（2次）、中國國際大學生創新大賽銅獎等 ^[2]  。

(1) Y.J. Li, G. Yuan*, L.L. Li*, J. Kang,F.K. Yan, P.J. Du, D. Raabe*, G.D. Wang. Ductile 2-GPa steels with hierarchicalsubstructure, Science, 2023; 379: 168-173.（ESI高被引論文）

(2) Y.J. Li*, L.L. Li, J. Kang, N.T. Niu,H. Xi, Y. Liu, G. Yuan*, G.D. Wang. Achieving unprecedented yield strength of2.2 GPa with high ductility in formed parts using strain-aging, Scripta Materialia, 2023; 233: 115521.

(3) Y.J. Li, D. Liu, D. Chen, J. Kang*,X.H. Wang, G. Yuan*, R.D.K. Misra, G.D. Wang. Response of retained austenite toquenching temperature in a novel low density Fe-Mn-Al-C steel processed by hotrolling-air cooling followed by non-isothermal partitioning, MaterialsScience and Engineering: A, 2019; 753: 197-207.

(4) Y.J. Li, J. Kang, W.N. Zhang, D. Liu,X.H. Wang, G. Yuan*, R.D.K. Misra, G.D. Wang. A novel phase transition behaviorduring dynamic partitioning and analysis of retained austenite in quenched andpartitioned steels, Materials Science and Engineering: A, 2018; 710: 181-191.

(5) Y.J. Li, D. Chen, D. Liu, J. Kang*,G. Yuan*, Q.J. Mao, R.D.K. Misra, G.D. Wang. Combined thermo-mechanicalcontrolled processing and dynamic carbon partitioning of low carbon Si/Al-Mnsteels, Materials Science and Engineering: A, 2018; 732: 298-310.

(6) Y.J. Li, X.L. Li, G. Yuan*, J. Kang,D. Chen, G.D. Wang. Microstructure and partitioning behavior characteristics inlow carbon steels treated by hot-rolling direct quenching and dynamicalpartitioning processes, Materials Characterization, 2016;121: 157-165.

(7) Y.J. Li, Q.J. Mao, J. Kang*, X.H.Wang, G. Yuan*, G.D. Wang. Determination of retained austenite using CCE modelaccounting for isothermal transformation in a low density quenched andpartitioned steel, Materials Letters, 2019; 239: 90-93.

(8) Y.J. Li, D. Liu, W.N. Zhang, J. Kang*,D. Chen, G. Yuan*, G.D. Wang. Quenching above martensite start temperature inquenching and partitioning (Q&P) steel through control of partial phasetransformation, Materials Letters, 2018; 230: 36-39.

(9) Y.J. Li, D. Chen, J. Kang*, X.L. Li,G. Yuan*, R.D.K. Misra, G.D. Wang. Kinetics of Carbon Partitioning during Non‐Isothermal Treatment and Mechanical Properties of the First IndustrialCoils of Hot Rolled Quenched and Partitioned Steel, Steel Research International,2019: 1900122.

(10) Y.J. Li, D. Chen, X.L. Li, J. Kang,G. Yuan*, R.D.K. Misra, G.D. Wang. Microstructural evolution and dynamicpartitioning behavior in quenched and partitioned steels, Steel Research International,2018; 89: 1700326.