一、基本情况
吴志强,男,1987年出生,吴志强,东北大学-澳大利亚悉尼大学联合培养博士,副教授,国际焊接工程师,中共湖南省委“湖湘青年英才”,湖南省科技厅“湖湘青年科技创新人才”,必赢766net手机版高层次人才“奋进学者”。主要从事新能源汽车/航空/工程机械/海工装备用先进高性能金属材料开发及加工技术等方面的研究工作,担任中国金属学会轧钢分会第八届委员会专家,《轧钢》,《特殊钢》和《精密成型工程》等期刊青年编委、《电焊机》期刊编委、在《Materials Science & Engineering A》、《Advanced Engineering Materials》、《Steel Research International》和《金属学报》等国内外重要刊物发表论文30余篇,申报及授权国家发明专利9项。主持国家自然科学基金面上和青年项目、湖南省科技创新人才项目、湖南省工信厅揭榜挂帅项目等。
E-mail:wuzq2009@163.com
二、受教育经历和工作经历
2004/09-2008/07 河南科技大学,材料成型及控制工程,学士
2008/07-2009/08 首钢建设集团,上海龙工叉车有限公司,技术工程师
2009/09-2011/07 东北大学,材料加工工程专业, 硕士
2011/09-2015/07 东北大学,材料加工工程专业,博士
2013/10-2015/03 悉尼大学,联合培养博士
2015/07-至 今 必赢766net手机版,教师
2022/01-至 今 中国矿业大学博士后流动站,博士后
三、研究方向
1. 新能源汽车/航空/工程机械/海工装备用先进高强钢开发
2. 先进高性能金属材料的焊接性及仿真模拟研究
3. 极端服役条件下材料的变形行为研究
4. 先进高端金属材料塑性成形工艺研究
四、研究项目
1. 主持国家自然科学基金面上项目,异质层状亚稳多相超高强钢的组织调控及强塑性机理研究
2. 主持国家自然科学青年项目,低密度高锰高铝钢的动态变形行为及韧脆转变机理研究
3. 主持湖南省科技创新人才项目,湖湘青年英才
4. 主持湖南省工信厅“揭榜挂帅”项目,高强度特厚高品质深海海洋工程用钢
5. 主持湖南省市联合基金项目,低成本超高强钢的相变和微观结构调控及工艺控制
6. 主持湖南省科协海智计划项目,先进装备工程材料开发与应用人才引进与合作交流
7. 主持湖南省教育厅优秀青年项目,复合微合金化超高强中锰钢的微观组织演化与强化机理研究
8. 主持湘潭市制造强市专项项目,先进低成本超高强度钢研发及焊接关键技术应用研究
9. 主持湘潭钢铁集团有限公司,技术开发项目,多规格多钢种“素化”单一钢种低成本生产关键技术开发
10. 主持江麓机电集团有限公司,技术开发项目,铝合金侧甲板及车体焊接仿真、应力检测调控
11. 主持中联重科股份有限公司,技术开发项目,小臂焊接变形控制研究
12. 参与国家自然科学基金面上项目,宽幅镁合金薄板预时效-挤压弯曲变形机理与形/性协同调控机制
五、研究成果论文
[1] Shuai Liu, Zhiqiang Wu*, Honggang Zhou, Keke Zhang, Danqing Yin, Yongping Lei, Yongfeng Qiu, A review of welding simulation methods for large components, Progress in Natural Science: Materials International, 2024. (SCI/EI检索)
[2] Zhiqiang Wua*, Shuai Liua, Md Nazmul Hasanb, Eric Lic, Xianghai Anb*, The hot deformation behavior in austenite-ferrite heterostructured low density Fe-Mn-Al-C steel, Materials Today Communications, 2023. (SCI/EI检索)
[3] Shuai Liu, Zhiqiang Wu*, Huan Liu , Honggang Zhou, Kangzong Deng, Chuanhui Wang, Longfei Liu, Eric Li, Optimization of welding parameters on weldingdistortion and stress in S690 high-strength steelthin-plate structures, Journal of Materials Research and Technology, Volume 25, July–August 2023, Pages 382-397 (SCI/EI检索)
[4] W.J Zhao*, Z.D Fu, Z.Q Wu*, X.W Deng, H.G Zhou, E. Li, L.W. Lu, H.J Pan, X.H. An, Superior high-temperature properties of low-density steel enabled by a tunable hierarchical microstructure, Advanced Engineering Materials, 2022, https://doi.org/10.1002/adem.202200821. (SCI/EI检索)
[5] Z. Wu, S. Liu, Z. Yang, H. Zhou, E. Li, H. Pan, Y. Chen, L. Lu, L. Liu, Simultaneously improved the strength dramatically and eliminated HAZ softening of DP980 steel pulsed-arc welding joints by PWHT, Materials Science and Engineering: A 837 (2022) 142752. (SCI/EI检索)
[6] Z.Q. Wu, M.N. Hasan, H.G. Zhou, J. Hu, L.F. Liu, L.W. Lu, X.H. An*, Enhanced high-temperature strength of a low-density dispersion-strengthened Fe-Mn-Al-C steel, Advanced Engineering Materials, 2021, http://doi.org/10.1002/adem.202101192. (SCI/EI检索)
[7] Z.Q. Wu*, Y.B. Tang, W Chen, L.W. Lu∗, Eric Li, Z.C. Li, H. Ding. Exploring the influence of Al content on the hot deformation behavior of Fe-Mn-Al-C steels through 3D processing map, Vacuum, 159, 2019(1): 447–455 (SCI/EI检索)
[8] Z.Q. Wu, H. Ding*, X.H. An, D. Han, X.Z. Liao*, Influence of Al content on the strain-hardening behavior of aged low density Fe–Mn–Al–C steels with high Al content, Materials Science and Engineering A, 2015, 639:187–191 (SCI/EI检索)
[9] Z.Q. Wu, H. Ding*, H.Y. Li, M.L. Huang, F.R. Cao, Microstructural evolution and strain hardening behavior during plastic deformation of Fe–12Mn–8Al–0.8C steel, Materials Science and Engineering A, 2013,584(1): 150-155 (SCI/EI检索)
[10] Haijun Pan, Wei Chao Fan, Hongmin Zhang, Xinyu Li, Lin Liu, Jing Li, Zhiqiang Wu. Strain rate sensitivity of low-temperature superplastic cold-rolled medium Mn steel with ultrafine equiaxed dual-phase microstructure,Materials Science and Engineering: A, 2023, 145025 (SCI/EI检索)
[11] Haijun Pan, Xinyu Li, Hongmin Zhang, Lin Liu, Zhiqiang Wu. Achieving low-temperature superplasticity in a cold-rolled medium Mn steel with an equilibrium ultrafine equiaxed dual-phase microstructure, Materials Science and Engineering: A, 2023, 145004 (SCI/EI检索)
[12] Haijun Pan, Xinyu Li, Hongmin Zhang, Lin Liu, Jing Li, Yujie Zhao, Zhijian Wang, Yi Zhang, Zhiqiang Wu, Minghui Cai, Hua Ding, Achieving ultra-high elongation of 1401% in a warm-rolled medium Mn lightweight steel with dual-phase lamellar structure, Materials Science and Engineering: A,862, 2023,144493 (SCI/EI检索)
[13] H.J. Pan, W.W. Yu, C.F. Wei, J.S. Zhang, J. Li, G. Wei, X.Y. Li, B. Qiao, L. Liu, Z.H. Cai, Z.Q. Wu, Enhanced Hydrogen Embrittlement Resistance of Medium Mn Steel by Tailoring Retained Austenite Morphology, JMEPEG, 2022, https://doi.org/10.1007/s11665-022-07118-3. (SCI/EI检索)
[14] Minhao Li, Liwei Lu, Yutian Fan, Min Ma, Tao Zhou, Fugang Qi, Hua Zhang, Zhiqiang Wu, Research on microstructure evolution and deformation behaviors of AZ31 Mg alloy sheets processed by a new severe plastic deformation with different temperatures, Materials Today Communications, 34,2023, 105467 (SCI/EI检索)
[15] Haijun Pan, Wenyu Tao, Bin Zhang, Peng Jiang, Zhizhi Wang, Wangping Wu, Lin Liu, Jing Li, Zhiqiang Wu, Zhihui Cai.Effect of Shot Peening Strengths on Microstructure and Mechanical Properties of 316L Stainless Steel Prepared by 3D Printing .January 2023.Advanced Engineering Materials (SCI/EI检索)
[16] Yutian Fan, Liwei Lu, Tao Zhou, Hua Zhang, Fugang Qi, Min Ma, Zhiqiang Wu, Weitao Jia, Sha Zhang & Weiying Huang Improvement of the Microstructure and Microhardness of AQ80 Magnesium Alloy by Repeated Upsetting-Extrusion .March 2023.Metals and Materials International (SCI/EI检索)
[17] H. Ding, *, Z.Q. Wu, D. Han, N.Zan, W. Bleck, Microstructural Evolution and Mechanical Behavior of Low Density Fe-Mn-Al-C Steels with High Stacking Fault Energy, Materials Science Forum, 2016, 879: 436-441. (EI检索)
[18] B. Che, L.W. Lu*, Z.Q.Wu*, H. Zhang, M. Ma*, J.Luo, H.M. Zhao. Dynamic recrystallization behavior and microstructure evolution of a new Mg-6Zn-1Gd-1Er alloy with and without pre-aging treatmen, Materials Characterization 181 (2021) 111506 (SCI/EI检索)
[19] H. Ding*, H.Y. Li, Z.Q. Wu, et al, Microstructural Evolution and Deformation Behaviors of Fe–Mn–Al–C Steels with Different Stacking Fault Energies, Steel Research International, 2013,84(12):1288–1293 (SCI/EI检索)
[20] H. Ding*, D. Han, Z.H. Cai, Z.Q. Wu, Microstructures and Mechanical Behavior of Fe-18Mn-10Al-(0.8-1.2)C Steels, JOM, 2014,66(9):1821-1827 (SCI/EI检索)
[21] Z.Y. Tang*, R. D. K. Misra, M. Ma, N. Zan, Z.Q. Wu, H. Ding, Deformation twinning and martensitic transformation and dynamic mechanical properties in a Fe-0.07C-23Mn-3.1Si-2.8Al TRIP/ TWIP steel, Materials Science & Engineering A, 2015, 624 :186–192 (SCI/EI检索)
[22] H. Ding*, D. Han, J. Zhang, Z.H. Cai, Z.Q. Wu, M.H. Cai, Tensile deformation behavior analysis of low density Fe–18Mn–10Al–xC steels, Materials Science and Engineering A, 2016, 652(15): 69–76 (SCI/EI检索)
[23] Sheng, Kun; Lu, Liwei; Xiang, Yao; Ma, Min; Wu, Zhiqiang, Crack behavior in Mg/Al alloy thin sheet during hot compound extrusion, Journal of Magnesium and Alloys, 2019, 7(4): 717-724(SCI/EI检索).
[24] Liu, Xiaoye; Lu, Liwei; Sheng, Kun; Xiang, Yao; Wu, Zhiqiang, Effect of Pre-compression on Microstructure Evolution of AQ80 Magnesium Alloy in Forward Extrusion and Twist Deformation, JOM, 2019, 71(12): 4726-4736(SCI/EI检索).
[25] Liwei Lu*, Zhenru Yin, Yanfeng Liu, Dandan Chen, Chuming Liu, Zhiqiang Wu*, Materiali in Tehnologije, 2017, 51(6): 1019-1023 (SCI/EI检索)
[26] Z.Q. Wu, H. Ding*, M. L. Huang, H. Y. Li, The microstructural and mechanical properties of a triplex Fe–12Mn–8Al–0.8 C steel with high strength and low density [C], Proceedings of the 5th Baosteel Biennial Academic Conference [A], Shanghai, 2013, 23(I): 23-27
[27] H. Ding*, Z.Q. Wu, D. Han, Microstructures and mechanical behavior of Fe-Mn-Al-C steels at different strain rates[C], The Second International Conference on High Manganese Steels [A], Aug.31-Sept.04, 2014, Aachen, Germany
[28] 吴志强, 唐正友*, 李华英. 应变速率对低 C 高 Mn TRIP/TWIP 钢组织演变和力学行为的影响, 金属学报, 2012, 48(5): 593-600 (SCI/EI检索)
[29] 唐正友*, 吴志强, 昝娜, 丁桦, 高锰 TRIP/TWIP 效应共生钢高速变形过程中的组织演 变及力学行为, 金属学报, 2011, 47(11): 1426-1433 (SCI/EI检索)
[30] 吴志强*; 卢立伟; 丁桦; 低密度高锰高铝钢的动态变形行为及韧脆转变研究进展, 精密成形工程, 2018, (06):22-29.
[31] 吴志强*; 李华英; 李娟; 封思理; 卢立伟; 高强塑性低密度高锰钢的TIG焊接接头显微组织及力学性能, 电焊机, 2018, (03):290-293.
[32] 吴志强*; 严明明; 卢立伟; 焊后热处理对Q235堆焊复合板的冲击性能影响, 精密成形工程, 2018, (04):96-100.
[33] 吴存慧, 刘龙飞, 蔡志辉, 卢立伟, 吴志强. 轧制工艺对低碳中锰钢微观组织和力学行为的影响[J].精密成形工程,2021,13(03):89-96.
[34] 李华英, 丁桦*, 蔡志辉, 吴志强, 固溶处理对 Fe-25Mn-1Al-0.2C 钢组织性能的影响, 材料热处理学报, 2012, 33(9): 70-74 (EI检索)
[35] 李茂华, 杨延清, 汝继刚, 吴志强, 卢立伟, 莫家璇. 热暴露对7475-T761铝合金微观组织和力学性能的影响[J].中国有色金属学报:1-12[2021-12-20].24.(EI检索)
[36] 蔡志华,袁圣林,常利军,吴志强.7B52叠层铝合金准静态及动态响应和本构模型研究[J/OL].兵器材料科学与工程:1-10[2022-02-09].DOI:10.14024/j.cnki.1004-244x.20220124.008.
六、国家发明专利
[1] 一种2000MPa级别超高强度TRIP钢的制备方法 CN202010018708.5
[2] 一种超高强塑积TRIP钢及其制备方法CN202010018674.X
[3] 一种1000MPa高碳高锰低密度钢及其制备方法 CN201910212748.0
[4] 一种轨道交通变速箱行星齿轮箱支撑组件的铸造设备 CN2023106615583
[5] 一种防止脱落偏移的变速器齿轮轴加工用锻造装置 CN2023105274312
[6] 一种可对边角进行磨削的变速箱后齿轮锻造模具 CN2023104529526
[7] 一种避免工件掉落的风力发电轴承加工用热处理设备及工艺 CN2022104571675
[8] 一种制备高性能镁合金板材的膨胀-连续剪切挤压变形成形装置 CN201920173567.7
[9] Al/Cu/Mg复合板材轧制制备方法 CN201810971874.X
[10] 一种用于制备高性能镁合金的往复挤压装置、加工方法及产品 CN202010733565.6
[11] 一种强化镁合金的加工方法 CN201910283766.8
[12] 一种细晶立方织构抗腐蚀疲劳铝合金板材的加工方法 CN201711436038.3
[13] 一种网球拍减震器 CN201721458948.7
七、奖励与荣誉
[1] 中共湖南省委“湖湘青年英才”,湖南省科技厅“湖湘青年科技创新人才”,2023年;
[2] “辽宁省自然科学学术成果奖”,2012年;
[3] 湖南省自然科学优秀学术论文一等奖,2022年;
[4] 精密成形工程2020-2021年度”优秀编委奖”。
八、育人成效
[1] 研究生主持大型复杂高强钢混凝土泵臂焊接变形及控制研究,省级研究生科研创新项目,2022年;
[2] 本科生主持低密度高强塑性先进高强钢的焊接性研究,省级大学生创新创业项目,2018年;
[3] 指导学生荣获第三届全国大学生焊接创新大赛一等奖,2018年;
[4] 指导学生荣获第四届全国大学生焊接创新大赛一等奖,2019年;
[5] 指导学生荣获高速铁路先进焊接技术国际研讨会优秀论文奖,2019年;
[6] 研究生荣获2023工业仿真软件技术峰会优秀论文,2023年;
[7] 研究生荣获2021-2023年湘潭市自然科学优秀学术论文二等奖,2023年;
[8] 研究生荣获2021-2023年湘潭市自然科学优秀学术论文三等奖,2023年;
[9] 研究生荣获湘潭市优秀毕业研究生,2023年;
近年来课题组学生毕业任职于中车集团、铁建重工、比亚迪汽车等知名企业,国内外名校读博深造,欢迎广大考生报考或调剂至我们课题组攻读研究生!