| 教师姓名: | 杨达朋 |
办公地点: | DSL465 |
| 办公电话: | 024-83672689 |
| 邮箱: | yangdapeng@ral.neu.edu.cn |
| 职称: | 副教授 |
| 研究方向: | 1.高强韧汽车钢(热冲压、冷冲压)基础理论、技术研发和产业化 2.钢铁材料相变及强韧化机理 3.超高强装甲防弹钢研发 4.绿色低碳易循环钢铁材料研发 5.汽车钢应用过程数字化和智能制造 |
| 通讯地址: | 辽宁省沈阳市和平区文化路3巷11号东北大学数字钢铁全国重点实验室 |
| 邮政编码: | 110819 |
学习和工作经历:
2025.01~至今:东北大学,数字钢铁全国重点实验室,副教授
2021.01~2024.12:东北大学,轧制技术及连轧自动化国家重点实验室,讲师
2015.09~2020.08:东北大学,轧制技术及连轧自动化国家重点实验室,博士
2013.09~2015.07:东北大学,钢铁冶金,硕士
2009.09~2013.07:东北大学,冶金工程,本科
主要科研成果:
长期从事高强韧钢铁材料(尤其是汽车用钢)的基础理论、技术研发和产业化工作,以第一/通讯作者在Acta Materialia、Scripta Materialia、International Journal of Plasticity、Journal of Materials Science & Technology、Corrosion Science等期刊发表SCI论文20余篇,授权中国和PCT国际专利10余件;承担国家自然科学基金青年基金、青年人才托举项目、中国博士后科学基金一等面上项目、辽宁省自然科学基金面上项目、企业横向课题等10余项;作为指导教师获辽宁省大学生创新创业大赛金奖和中国“互联网+”大学生创新创业大赛铜奖;获中国汽车工业技术发明一等奖、辽宁省科技进步一等奖、中国产学研合作促进会创新成果一等奖、中国发明协会发明创业成果一等奖;入选中国汽车工程学会“青年人才托举工程”。
教授课程:
本科生专业必修课《金属学及热处理》
本科生专业选修课《材料的深加工》
本科生专业选修课《智能制造》
代表性论文:
1.T. Wang, D.P. Yang*, M. Dong, Z.F. He, H.L. Yi*, Discontinuous versus continuous yielding in medium-Mn steel: Role of the coherence of ferrite/austenite interface, Acta Materialia 309 (2026) 122052. (中科院一区, IF: 9.3)
2.Q.Y. Leng, M.K. Bai, D.P. Yang*, J.L. Zhou, H.L. Yi*, Reassessing the HCl immersion method for evaluating hydrogen-induced delayed fracture in press-hardening steels: Pit-induced stress dominance over hydrogen embrittlement, Corrosion Science 263 (2026) 113677. (中科院一区, IF: 8.5)
3.D. Liu, Y. Hou, D.P. Yang*, G.D. Wang, H.L. Yi*, Dynamic carbon diffusion induced sustainable strain-hardening at quasi-static strain rates in high-C Al-added austenitic steels, International Journal of Plasticity 191 (2025) 104391. (中科院一区, IF: 12.8)
4.J.W. Liang, D.P. Yang*, Z.T. Miao, T. Wang, G.D. Wang, H.L. Yi*, Simultaneous improvement of tensile ductility and fracture strain for dual-phase steels over 1000 MPa, Journal of Materials Science & Technology 229 (2025) 92-105. (中科院一区, IF: 14.3)
5.D. Liu, D.P. Yang*, H.L. Yi*, Quantifying the contribution of dynamic strain aging to dislocation component for strain-hardening in high-carbon austenitic steels, Scripta Materialia 266 (2025) 116767. (中科院二区, IF: 5.6)
6.D.P. Yang*, T. Wang, Z.T. Miao, P.J. Du, G.D. Wang, H.L. Yi*, Effect of grain size on the intrinsic mechanical stability of austenite in transformation-induced plasticity steels: The competition between martensite transformation and dislocation slip, Journal of Materials Science & Technology 162 (2023) 38-43. (中科院一区, IF: 14.3, 封面文章)
7.D.P. Yang, P.J. Du, D. Wu, H.L. Yi*, The microstructure evolution and tensile properties of medium-Mn steel heat-treated by a two-step annealing process, Journal of Materials Science & Technology 75 (2021) 205-215. (中科院一区, IF: 14.3)
8.D.P. Yang, D. Wu, H.L. Yi*, Comments on “The effects of the heating rate on the reverse transformation mechanism and the phase stability of reverted austenite in medium Mn steels” by J. Han and Y.-K. Lee, Acta Materialia 67 (2014) 354-361, Scripta Materialia 174 (2020) 11-13. (中科院二区, IF: 5.6, 评论文章)
9.D.P. Yang, D. Wu, H.L. Yi*, Reverse transformation from martensite into austenite in a medium-Mn steel, Scripta Materialia 161 (2019) 1-5. (中科院二区, IF: 5.6)
