"创新人才推进计划"中青年科技创新领军人才
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姓 名:罗海文 职 称:教授/博士生导师 电子邮件:luohaiwen@ustb.edu.cn 办公地点:冶金楼514 教学课程:金属材料热处理、钢塑性加工的物理冶金 科研领域/方向:先进钢铁材料 社会兼职:中国冶金期刊副主编(2017年起)、中国金属学会外事委员会成员(2017年至今),金属学报、钢铁、中国冶金、International Journal of Minerals , Metallurgy and Materials、Steel Research International 等国内外冶金材料期刊编委、冶金Top1 顶刊Acta Materialia 最佳审稿人 ORCID ID:https://orcid.org/0000-0001-7205-476X |
个人简介
国家级高层次人才、全国高校黄大年式教师团队(2018)成员;
1989.09–1999.06 太阳成tyc7111cc 钢铁冶金系本科、硕士及博士研究生;
1999.05-2000.03 日本东北大学素材研究所非常勤研究员
2000.04-2001.08 芬兰OULU大学材料工程实验室、芬兰Rautaruukki钢铁公司技术中心研究员
2001.11-2004.10, 荷兰金属研究所研究员
2004.11-2014.06,钢铁研究总院教授级高工,博士生导师
2020-2024连续5年获Elsevier冶金学科高被引学者;
2020-2024连续5年获Elsevier-Sandford大学全球前2%杰出科学家
学术代表成果:(论文、专利、软著等)
论文
1.B. B. He, B. Hu, H. W. Yen, G. J. Cheng, Z. K. Wang, H. W. Luo*, M.X. Huang*. High dislocation density–induced large ductility in deformed and partitioned steels, Science, Volume 357, Issue 6355, 1029–1032, 8 September 2017. DOI:10.1126/science.aan0177
2.Fanglin Ding,Zhipeng Liu, Ru Ge, Bin Hu, Haiwen Luo. Synergistic strength–plasticity enhancement via multi-type nanoprecipitates and ultrafine retained austenite in Cu/Ni/Al/V-alloyed medium-Mn steels, Materials Characterization, Volume 236, June 2026, 116370. https://doi.org/10.1016/j.matchar.2026.116370
3.Zheng Wang,Feng Chen, Tao Shi, Qun Zhou, Yuhui Chen, Bin Hu, Haiwen Luo*. Competition between inclusion- and microstructure-induced fatigue failure in ultraclean 100Cr6 bearing steel, Journal of Materials Science & Technology, Volume 272, 20 November 2026, Pages 1-13. https://doi.org/10.1016/j.jmst.2026.02.013
4.Sijia Chao, Fanglin Ding, Weiqiang Lai, Bin Hu, Haiwen Luo. Additivity laws for dual precipitation strengthening in alloyed steels: mechanism-driven superposition principles, Materials Science and Engineering: A, Volume 957, April 2026, 149968, https://doi.org/10.1016/j.msea.2026.149968
5.Luyu Yang, Xianhao Li, and Haiwen Luo. Revisit of Secondary Recrystallization Mechanism in Grain-Oriented Electrical Steels: A Review. Steel Research Int. 2025,1–14, DOI: 10.1002/srin.202500517
6.Bin Hu, Ru Ge, Xiong Lin, Fanglin Ding, Han Sui, Yun Han, Alexander Gramlich, Jinru Luo, Guosen Zhu, Haiwen Luo. Discontinuous yielding mechanism in Nb-alloyed extra low carbon steels, Acta Materialia, Volume 303, 15 January 2026, 121695 https://doi.org/10.1016/j.actamat.2025.121695
7.Qinyi Guo, Ru Ge, Yumeng Wang, Bin Hu, Haiwen Luo. Interactions between dynamic/static ferrite recrystallization and austenite reversion in medium Mn steel, Materials Characterization, Volume 229, Part A, November 2025, 115485, https://doi.org/10.1016/j.matchar.2025.115485
8.Zhipeng Liu, Cancan Ding, Ru Ge, Bin Hu, Haiwen Luo*. Unprecedented combination of specific tensile strength and ductility achieved in a novel duplex low-density steel. Scripta Materialia 263 (2025) 116668.
9.Bin Hu*, Shiji Geng, Nima Babaei, Alexander Gramlich, Yichao Bai, Wenting Zhao, Junkui Li, Xinjun Sun, Caijun Zhang, Ulrich Krupp, Haiwen Luo*. Fully restoring the damaged ductility of H-charged medium Mn steel via pulsed current, Scripta Materialia 262 (2025) 116663.
10.Zhipeng Liu, Bin Hu, Na Wang, Xiao Shen, Cancan Ding, Wenwen Song, Peter K. Liaw, and Haiwen Luo*. Hierarchical precipitation in a partially recrystallized matrix makes an ultrastrong and ductile lightweight steel, Journal of Materials Science & Technology, 230(2025), 48–59
11.Fanglin Ding, Qinyi Guo, Bin Hu,Yuantao Xu, Weiqiang Lai, Caijun Zhang*, Xuejun Jin*, Haiwen Luo*. Influences of Cu alloying on precipitation, austenitic reversion and mechanical properties of NiAl-strengthened medium-Mn steels, Acta Materialia, Volume 284, 1 January 2025, 120623, https://doi.org/10.1016/j.actamat.2024.120623
12.Ru Ge, Yu Wang, Bin Hu*, Caijun Zhang,*, Haiwen Luo*. Excellent mechanical and damping properties simultaneously achieved in partially recrystallized Fe-Mn-Nb alloy, Acta Materialia 280 (2024) 120336, https://doi.org/10.1016/j.actamat.2024.120336
13.Cancan Ding, Chengyuan Deng, Qinyi Guo, Zhipeng Liu, Ru Ge, Bin Hu, Shilei Li, Haiwen Luo*.Superhigh strength and ductile press-hardening steel produced by shortened austenitization of microstructure containing Mn/Cr-rich cementite particles, Scripta Materialia 256 (2025) 116435,https://doi.org/10.1016/j.scriptamat.2024.116435
14.Cancan Ding, Haifeng Zhao, Bin Hu, Dechao Xu,Ru Ge,Chengyuan Deng, Zedong Xie, Hua Chen, Haiwen Luo∗. A novel tri-phase lightweight press-hardening steel exhibiting both excellent mechanical properties and outstanding oxidization resistance, Journal of Materials Science & Technology 196 (2024) 171–182,https://doi.org/10.1016/j.jmst.2024.02.020
15.Xin Li, Bin Hu*, Qinyi Guo, Xian Wu, Han Sui, Li Xiang, Haiwen Luo*. Characterizing changes in microstructures, mechanical and magnetic properties of non-oriented silicon steel due to pulsed current, Materials Characterization, Volume 211, May 2024, 113904,https://doi.org/10.1016/j.matchar.2024.113904
16.Zheng Wang, Feng Chen, Qing Yin, Bin Hu, Haiwen Luo*. Complex-inclusion induced fracture mechanism of ultraclean 100Cr6 bearing steel under high cycle fatigue test. International Journal of Fatigue, Volume 184, July 2024, 108310
17.Cancan Ding, Haifeng Zhao, Dechao Xu, Zhipeng Liu, Chengyuan Deng, Bin Hu, Wenwen Song, Yandong Wang, Haiwen Luo*. Revisit of bake hardening mechanism: Influence of baking on tensile properties of press hardening steels. Materials Science and Engineering: A, Volume 896, https://doi.org/10.1016/j.msea.2024.146276, March 2024, 146276.
18.Bin Hu*, Guohui Shen, Zheng Wang, Qinghua Wen, Xiao Shen, Haiwen Luo*. Toughening ultrastrong low-density steel by textured δ-ferrite lamellas, Defence Technology, 2024, Vol. 32, 405-411. doi: https://doi.org/10.1016/j.dt.2023.05.006. Available online 11 May 2023
19.Bin Hu*, Guohui Shen, Zheng Wang, Shilei Li, Yandong Wang, Haiwen Luo*.Ultrahigh tensile strength achieved in a lightweight medium Mn steel via prominent work hardening, Journal of Materials Science & Technology 145 (2023) 156–16, https://doi.org/10.1016/j.jmst.2022.11.009
20.Shuoshuo Li, Yanjun Wang, Bin Hu, Wu Tao, Shanglu Yang*, Haiwen Luo*. A shrinkage-based criterion for evaluating resistance spot weldability of alloyed steels, PNAS Nexus, 2022, Vol. 1, No. 4, 1-10, https://doi.org/10.1093/pnasnexus/pgac161, Published: 18 August 2022
21.Xin Tu, Bin Hu, Renjie Xu , Qinyi Guo, Haiwen Luo *. Prominent work hardening and ultrahigh yield strength both realized in 3Mn steel multiply alloyed with Cu/Ni/Al/V. Materials Science & Engineering A 849 (2022) 143473
22.Bin Hu*,Qinghua Wen, Qinyi Guo, Yongjin Wang, Han Sui, Haiwen Luo*. A novel electric pulse pathway to suppress plastic localization and enhance strain hardening of medium Mn steel, Scripta Materialia, Volume 221, December 2022, 114991, https://doi.org/10.1016/j.scriptamat.2022.114991
23.Bin Hu,Xiao Shen, Qinyi Guo, Qinghua Wen, Xin Tu, Cancan Ding, Fanglin Ding, Wenwen Song*, Haiwen Luo*. Yielding behavior of triplex medium Mn steel alternated with cooling strategies altering martensite/ferrite interfacial feature, Journal of Materials Science & Technology, 2022(126): 60-70. https://doi.org/ 10.1016/j.jmst.2022.04.003
24.Qinyi Guo, Hung-Wei Yen, Haiwen Luo*, Simon P. Ringer*. On the mechanism of Mn partitioning during intercritical annealing in medium Mn steels, Acta Materialia, 225 (2022), 117601. https://doi.org/10.1016/j.actamat.2021.117601
25.Pengyu Wen, Bin Hu, Jiansheng Han, Haiwen Luo*. A strong and ductile medium Mn steel manufactured via ultrafast heating process, Journal of Materials Science & Technology.97(2022):54-68
26.Shuoshuo Li, Pengyu Wen, Shilei Li, Wenwen Song, Yandong Wang, Haiwen Luo*. A novel medium-Mn steel with superior mechanical properties and marginal oxidization after press hardening. Acta Materialia 205 (2021) 116567 https://doi.org/10.1016/j.actamat.2020.116567
27.Jingbin Zhang, Yinrui Sun, Zhijie Ji, Haiwen Luo*, Feng Liu*. Improved mechanical properties of V-microalloyed dual phase steel by enhancing martensite deformability, Journal of Materials Science & Technology 75 (2021) 139–153. https://doi.org/10.1016/j.jmst.2020.10.022
28.Bin Hu, Xin Tu, Haiwen Luo*, Xinping Mao. Effect of warm rolling process on microstructures and tensile properties of 10 Mn steel. Journal of Materials Science & Technology, Volume 47, 15 June 2020, 131-141, https://doi.org/10.1016/j.jmst.2019.12.026
29.Haiwen Luo*, Xiaohui Wang*, Zhenbao Liu, Zhiyong Yang. Influence of refined hierarchical martensitic microstructures on yield strength and impact toughness of ultra-high strength stainless steel, Journal of Materials Science & Technology, Vol. 51, 2020, 130–136, https://doi.org/10.1016/j.jmst.2020.04.001, Cover paper and excellent paper award. ESI高被引:
30.Bin Hu, Haiwen Luo*. A novel two-step intercritical annealing process to improve mechanical properties of medium Mn steel. Acta Materialia, Volume 176, 1 September 2019, Pages 250-263, https://doi.org/10.1016/j.actamat.2019.07.014
31.Bin Hu, BinBin He, GuanJu Cheng, HungWei Yen, HaiWen Luo*. Super-high-strength and formable medium Mn steel manufactured by warm rolling process. Acta Materialia, Volume 174, 1 August 2019, Pages 131-141,
32.Xiaohui Wang, Huanhui Leng, Bo Han, Xiao Wang, Haiwen Luo*. Solidified microstructures and elastic modulus of hypo-eutectic and hyper-eutectic TiB2-reinforced high-modulus steel. Acta Materialia, Volume 176, 1 September 2019, Pages 84-95. https://doi.org/10.1016/j.actamat.2019.06.052
33.Minghao Zhang, Anne-Françoise Gourgues-Lorenzon*, Esteban P. Busso, Haiwen Luo, Mingxin Huang. Recrystallisation-assisted creep of an austenitic Fe-Ni alloy under low stresses after hot deformation. Acta Materialia, Volume 153, July 2018, Pages 23-34,
34.Bin Hu, Haiwen Luo*. A strong and ductile 7Mn steel manufactured by warm rolling and exhibiting both transformation and twinning induced plasticity. Journal of Alloys and Compounds, 725 (2017), 684-693, http://dx.doi.org/10.1016/j.jallcom.2017.07.203
35.Jianing Zhu, Haiwen Luo, Zhigang Yang, Chi Zhang, Sybrand van der Zwaag, Hao Chen, Determination of the intrinsic a/g interface mobility during massive transformations in interstitial free Fe-X alloys. Acta Materialia 133 (2017) 258-268
36.Bin Hu, Haiwen Luo∗, Feng Yang, Han Dong. Recent progress in medium-Mn steels made with new designing strategies, a review. Journal of Materials Science & Technology. 2017, 33(12): 1457-1464, http:// dx.doi.org/10.1016/j.jmst.2017.06.017.
37.Feng Yang, Haiwen Luo*, Chundong Hu, Enxiang Pu, Han Dong, Effects of intercritical annealing process on microstructures and tensile properties of cold-rolled 7Mn steel, Materials Science & Engineering A 685 (2017) 115–122. http://dx.doi.org/10.1016/ j.msea.2016.12.119
38.Binbin He, Haiwen Luo*, Mingxin Huang*. Experimental investigation on a novel medium Mn steel combining transformation-induced plasticity and twinning induced plasticity effects. International Journal of Plasticity, Vol.78, 2016, 173-186. http://dx.doi.org/l0.1016/jjjplas.2015.11.004
39.Haiwen Luo*, Sybrand van der Zwaag. Analytical Approach to Model Heterogonous Recrystallization Kinetics Taking into Account the Natural Spatial Inhomogeneity of Deformation. Metallurgical and Materials Transactions A, Vol.47A, 2016, 231-238, DOI: 10.1007/s11661-015-3200-1
40.Haiwen Luo*, Han Dong, Mingxin Huang. Effect of intercritical annealing on the Lüders strains of medium Mn transformation-induced plasticity steels. Materials & Design, 2015, Vol.83, 42–48. http://dx.doi.org/10.1016/j.matdes.2015.05.085
41.Haiwen Luo*, Han Dong. New ultrahigh-strength Mn-alloyed TRIP steels with improved formability manufactured by intercritical annealing. Materials Science and Engineering: A, 2015, A626, 207–212, http://dx.doi.org/10.1179/1743284713Y.0000000447
42.Haiwen Luo*, Rui Xiang, Lingfeng Chen, Limeng Pan. Modeling the decarburization kinetics in grain-oriented silicon steels, Chinese Science Bulletin, 2014, Vol.59, No.15, 1778–1783,DOI 10.1007/s11434-014-0156-2
43.Haiwen Luo*. Comments on “Austenite stability of ultrafine-grained transformation-induced plasticity steel with Mn partitioning” by S. Lee, S.J. Lee and B.C. De Cooman. Scripta Materialia, Vol. 66, 2012, 829-831
44.Haiwen Luo*. Effect of concurrent recovery on Avrami exponent of the softening kinetics after hot deformation Materials Engineering and Science A, 532(2012): 44-49
45.Haiwen Luo*, Jie Shi, Chang Wang, Wenquan Cao, Xinjun Sun, Han Dong, Experimental and numerical analysis on formation of stable austenite during the intercritical annealing of 5Mn steel, Acta Materialia Vol.59, 2011, 4002-4014
46.罗海文*, 林 雄, 刘高阳,胡斌. 燃料电池金属双极板的研究进展与展望,金属学报,2026, 62(2): 263-274, DOI: 0.11900/0412.1961.2025.00142
47.李夫顺 刘志鹏 丁灿灿 胡斌* 罗海文*. 一种新型高强奥氏体低密度钢的强塑性机理研究, 金属学报, 2025, 61 (6): 909-916. DOI: 10.11900/0412.1961.2024.00077 JUN 2025 DOI: 10.11900/0412.1961.2024.00077, 录用日期: 2024-04-28
48.谢泽东,丁灿灿,温鹏宇,罗海文*. 闪速加热对2000 MPa级热成形钢显微组织和力学性能的影响, 金属学报, DOI:10.11900/0412.1961.2023.00036. 2024, Vol. 60, No.12: 1667-1677
49.许仁杰, 屠鑫, 胡斌, 罗海文*. Cu-V双合金化3Mn钢的组织和力学性能, 金属学报, 2024, 60 (6): 817-825. DOI: 10.11900/0412.1961.2022.00101
50. 杨伟阳, 黎先浩, 赵鹏飞, 于海彬, 赵松山, 罗海文*. 取向硅钢不同常化工艺下组织及抑制剂的变化, 金属学报,封面论文, 2024, 60 (5): 605-615.DOI: 10.11900/0412.1961.2023.00283
51.沈国慧,胡斌,罗海文*,回火温度对含δ铁素体高铝中锰钢力学性能和显微组织的影响,金属学报,2022(58), No.2 , 165-174. DOI: 10.11900/0412.1961.2021.00089
52.周扬扬,徐伟彪,罗海文*,乌希里克铁陨石的组织结构、冷却历史和定量预测模型,天文学报,2021(62), No.11
53.王玉 胡斌 刘星毅 张浩 张灏云 官志强 罗海文*,退火温度对含Nb高锰钢力学和阻尼性能影响,金属学报,2021(57), No.12, 1588-1594. DOI:10.11900/0412.1961.2021.00020
54.孙飞龙, 耿克, 俞峰, 罗海文*. 超洁净轴承钢中夹杂物与滚动接触疲劳寿命的关系. 金属学报2020, 56 (5): 693-703. DOI 10.11900/0412.1961.2019.00337
55.罗海文*,沈国慧。超高强高韧化钢的研究进展和展望。金属学报2020, 56 (4): 494-512. DOI 10.11900/0412.1961.2019.00328
56.于雷,罗海文*. 部分再结晶退火对无取向硅钢的磁性能与力学性能的影响 ,金属学报 2020, 56 (3): 291-300. DOI: 10.11900/0412.1961.2019.00314
57.黄 俊, 罗海文*. 退火工艺对含Nb 高强无取向硅钢组织及性能的影响, 金属学报,Vol.54, 2018, No.3: 377-384
58.阳锋, 罗海文, 董瀚. 退火温度对冷轧7Mn钢拉伸行为的影响及模拟研究 , 金属学报 2018, 54 (6): 859-867. DOI: 10.11900/0412.1961.2017.00315
59.曾贵民, 罗海文*, 李军, 龚坚, 黎先浩, 王现辉. 取向硅钢低温加热工艺中渗氮工序的实验与数值模拟研究,金属学报,Vol.53, 2017, No.6, 743-750
60.罗海文*, 陈凌峰,向睿, 潘丽梅, 取向硅钢中脱碳工艺的数值模拟, 科学通报,科学通报,2014,Vol.59,No.10, 866-871
61.罗海文*,潜伟,董瀚,古代大马士革刀花纹形成机制的理论分析,科学通报,2014 年 第59 卷 第9 期:833 ~ 842
专利
1. 罗海文,汪峥.一种用于避免钢中氧化物夹杂引起疲劳失效的方法, 国家发明专利,申请号:2024113854386, 申请日:2024 年09 月30 日.权利人:太阳成tyc7111cc,授权公告日:2025年8月26日,
2. 罗海文,李硕硕. 一种先进高强钢点焊焊接性的预判评价方法, 国家发明专利,申请日:2021-07-07,申请号:202110770795.4, 权利人:太阳成tyc7111cc,授权公告号:2022010500310100;授权公告日:2022-08-04
3. 罗海文, 陈华,丁灿灿。一种超高强高塑性抗高温氧化热冲压成形钢的制备方法,国家发明专利,申请号:202110304149.9 申请日:2021年03月22日,权利人:太阳成tyc7111cc,授权公告日:2022年02月11日, 授权公告号:CN 113106339B
4. 罗海文, 丁灿灿,陈华。一种超高强度高塑性热冲压成形钢的制备方法,国家发明专利,申请号:202110302921.3,申请日:2021年03月22日,发明人:太阳成tyc7111cc,授权公告日:2022年02月11日,授权公告号:CN 113106338B
5. 胡斌,罗海文。一种抑制中高锰钢局部变形塑性失稳行为的方法,国家发明专利,申请号:202011497048.X,申请日2020年12月17日,权利人: 太阳成tyc7111cc,授权公告号:2022011700152210;授权公告日:2022年01月20日
6.胡斌,吴限,罗海文。一种轴承钢及其球化退火方法,申请号:202210880043.8,申请日:2022.07.25,授权公告号:CN 115341077 B, 授权公告日:2023. 08. 29, 专利权人:太阳成tyc7111cc
7.罗海文,刘志鹏。一种Fe-Mn-Al-C系高强度低密度钢及其制备方法,国家发明专利,申请号:202110037716.9,申请日2021年01月12日,权利人: 太阳成tyc7111cc;授权公告日:2022年01月18日,授权公告号:CN 113278896B
8.罗海文,王玉。一种Fe-Mn系高强度高阻尼合金的制备方法,国家发明专利,申请号:202110065967.8,申请日:2021年01月18日,权利人: 太阳成tyc7111cc, 授权公告日:2021年12月24日,授权公告号:CN 112899577B
9.杨上陆,王艳俊,罗海文,李硕硕。国家发明专利,一种高强度钢板的点焊接头及其制造方法,申请号:CN202010927333.4,申请日:2020.09.07,专利权人:中国科学院上海光学精密机械研究所。
10. 罗海文。一种电子产品用高强不锈钢粉末及制备工艺。国家发明专利,申请号: 202010437460.6,申请日: 2020 年05 月21 日, 权利人: 太阳成tyc7111cc, 授权公告号:CN 111519113 B;授权公告日:2021.10.29
11. 罗海文,沈国慧。一种兼具超高强度高韧性的轻型钢板的制造方法. 国家发明专利,申请号: 201910244716.9,申请日: 2019年03月28日,专利权人:太阳成tyc7111cc,授权公告号:CN 109930069 B;授权公告日:2019.12.24
12. 罗海文,孟小涛。一种基于ESP 无头轧制技术生产高磁感取向硅钢的方法。国家发明专利,申请号: 201810321541.2,申请日: 2018-04-11,专利权人:太阳成tyc7111cc, 授权公告号:CN108546814A;授权公告日:2020.03.11
13. 罗海文,温鹏宇。超快速加热工艺生产高强塑积中锰冷轧钢板的方法。国家发明专利, 申请号:201710260097.3,申请日 2017年 04月 20日,专利权人:太阳成tyc7111cc,授权公告号:CN 107127212 B;授权公告日:2019.05.03
14. 罗海文,董瀚。具有优良塑性的超高强度中锰汽车钢板及制备方法,国家发明专利,申请号: 201610592858.0,申请日:2016.11.06,专利权人:钢铁研究总院, 授权公告号:CN 106119493 B;授权公告日:2019.01.18
15. 罗海文。一种超高强度塑性积的冷轧中锰钢及其制备方法,国家发明专利,申请号: 201610455155.3,申请日:2016.06.21,专利权人:太阳成tyc7111cc,授权公告号:CN 106086640 B;授权公告日:2018.10.02
16. 罗海文,黄俊。一种驱动电机用高强度冷轧无取向硅钢及制造方法。申请号:201711204222.5,申请日:2017-11-27,专利权人:太阳成tyc7111cc, 授权公告号:CN B;授权公告日:2019.02.03
17. 罗海文,温鹏宇。超快速加热工艺生产超高强度马氏体冷轧钢板的方法。国家发明专利, 申请号:201711019854.4,申请日 2017年 10月 26日,授权公告号:107794357 B,授权公告日:2018.09.14;
18. 罗海文,杨平。一种可耐400度高温的轴承钢的制备方法,国家发明专利, 申请号: 201710194788.8,申请日:2017:3月28,专利权人:太阳成tyc7111cc,授权公告日期:2018-7-27,授权公告号: CN 106893947 B
19. 罗海文,黄俊。一种高强度含铜无取向硅钢及制造方法。国家发明专利,申请号:201710263501.2,申请日: 2017日04月 20日,专利权人:太阳成tyc7111cc,授权公告日:2018.05.18,授权公告号:CN 107130169 B
20. 罗海文。双相孪生诱导塑性超高强度汽车钢板的化学成分及生产工艺,国家发明专利,申请号: 2014106690299.9,申请日:2014.11.20,专利权人:太阳成tyc7111cc,已授权,授权日期:2017-02-22,授权公告号:104328360 B专利号: ZL 201410669029.9
21. 罗海文, 董瀚, 时捷。一种低屈强比、高强度汽车用双相钢板及生产方法,国家发明专利,申请号:201310507894.9;申请日:2013年10月24日,专利权人:钢铁研究总院,授权公告号CN 103556048 B, 授权公告日:2015.04.29, 已授权
22. 罗海文, 董瀚, 干勇, 翁宇庆, 时捷。一种连续退火工艺生产高强塑积汽车用钢板的方法,国家发明专利,申请号:201210429409.6 申请日:2012-10-31,专利权人:钢铁研究总院,授权公告号 CN 102925790 B,授权公告日 2014.03.26
美国专利
1.Producing Ultra-High-Strength Martensitic Cold-Rolled Steel Sheet By Ultra Rapid Heating Process。美国专利申请文件,申请号:16/252 908,申请日:2019年1月21日; 美国专利号:US 11,261,504 B2, 授权日期: Mar. 1,2022;
2.Method For Manufacturing Lightweight Steel Plate With Ultrahigh Strength And High Toughness,授权美国专利号:US 10,793,932 Bl,签发日:2020.10.06
欧洲专利
1.Producing Ultra-High-Strength Martensitic Cold-Rolled Steel Sheet By Ultra Rapid Heating Process. 欧洲专利申请文件,申请号:18833148.2,申请日:2019年1月22日,专利号:3702477,欧洲单一专利授权生效日期:2023-11-22
软著
[1] 罗海文,孙飞龙。钢中夹杂物的帕累托评级软件,开发完成日期:2019.09.28;证书号:3233501,登记号:2018SR904406
其他
[1]Haiwen Luo. Fully restoring damaged ductility of H-charged Medium Mn steel via pulsed current. Keynote speaker in the 9th International Conference on High Strength and Low Alloys (HSLA 2025), November 2~4 2025, Nanjing,China.
[2]Haiwen Luo. Mechanism on discontinuous yielding in Nb microalloyed steels. Invited speaker in the 20th International Conference on Strength of Materials (ICSMA) on 2–6 June 2025, Kyoto, Japan.
[3]Haiwen Luo. Influences of Cu alloying on precipitation, austenitic reversion and mechanical properties of NiAl-strengthened medium-Mn steels. Keynote speaker in the International Colloquium on Sustainable Steels (ICSS2025) on 1–2 September at SuperC, RWTH Aachen University, Germany.
[4]Luo Haiwen*, Weng Yuqing. Plenary speaker, The recent progress of advanced structural steels in China. The Sixth International Conference on Advanced Steels (ICAS 2018), Jeju, Korea, 2018.1118-21
成就及业绩
获奖
1. “基于M3组织调控的钢铁材料基础理论研究与高性能钢技术”项目获得2017年8月中国钢铁工业协会、中国金属学会颁发的冶金科学技术奖一等奖(2017-205-1-8),排名第八。
2. 超长寿命高可靠新型轮毂球轴承用线材关键技术与应用,2022年8月,中国钢铁工业协会、中国金属学会颁发的冶金科学技术奖三等奖(2022-069-3-3)
3. 入选2018年国家教育部"全国高校黄大年式教师团队
4. 2020~2024 年连续5年入选冶金学科爱思唯尔高被引学者;
5. 2020~2024连续5年入选爱思唯尔与斯坦福大学推出的全球前2%杰出科研人员,toprearcherslist.com.
主要科研项目/业绩
1. 2022年度中国宝武低碳冶金创新基金项目China Baowu Low Carbon Metallurgy Innovation Foundation- BWLCF202213)“燃料电池用低成本高耐蚀关键钢铁材料”,主持人
2. 国家自然科学基金委材料工程学部重点项目“油气开采中高耐久性压裂泵用钢开发的基础研究”,编号52233018,主持人
3. 国家自然科学基金委材料工程学部重点项目“复相组织超高强高韧钢中多类型析出强化及相变强化耦合机制研究”,编号51831002,主持人
4. 国家自然科学基金委国际(地区)合作与交流项目“高性能中锰钢两相区退火时组织演变的表征与模型研究”,编号“51861135302”,主持人
5. 国家自然科学基金委钢铁联合基金重点项目“第三代汽车用钢中锰钢的连续退火生产新工艺的基础研究”的负责人,编号U1460203,主持人
2024届罗海文研究组的11名博士、硕士研究生毕业生去向
深造单位:3人在上海交通大学、1人在昆士兰大学深造。
工作单位:河南钢铁集团有限公司、中科院上海应用物理研究所、厦门虹鹭钨钼工业有限公司、中国石油-宝鸡石油钢管有限责任公司、常州宝菱重工机械有限公司、江苏沙钢集团淮钢特钢股份有限公司、国家电网-江苏振光电力设备制造有限公司等。
欢迎追逐梦想的年轻学子们加入本团队。