教师姓名:张维娜
出生年月:1982.7
办公地点:RAL219
办公电话:024-8368641113604028597
电子邮件:zhangwn@ral.neu.edu.cn
职称:副研究员/硕士生导师
研究方向:金属材料成型工艺控制及组织性能机理研究
通讯地址:辽宁省沈阳市和平区 东北大学轧制技术及连轧自动化国家重点实验室105信箱
邮政编码:110819
一、个人简历
受教育经历:
2007/03–2011/04,东北大学,轧制技术及连轧自动化国家重点实验室,博士
2005/09–2007/03,东北大学,轧制技术及连轧自动化国家重点实验室,硕士
2001/09–2005/07,东北大学,材料与冶金学院,学士
研究工作经历:
2020/01–至今 东北大学,轧制技术及连轧自动化国家重点实验室,副研究员
2011/04–2019/12,东北大学,轧制技术及连轧自动化国家重点实验室,助理研究员
二、教学情况(本科生/研究生)
承担课程名称:透射电镜理论与上机操作,授课对象:RAL青年教师,RAL在读博士硕士,40h/学期(RAL内部培训)
三、主要研究项目
主要纵向科研项目:
1、中央高校基本科研业务费青年教师科研启动基金项目,N110307003,Fe-Mn-Al-Si系高锰TWIP/TRIP钢强韧化机理研究,2012/01-2013/12,9万元,已结题,主持;
2、中央高校基本科研业务费青年教师科研创新种子基金项目,N150704002,Fe-Mn-C系综合强化钢形变孪晶与沉淀粒子交互作用机理研究,2016/01-2017/12,10.5万元,已结题,主持;
3、中央高校基本科研业务费青年教师科研创新种子基金项目,N180704007,新型船体结构用钢纳米富Cu相析出行为及演变机理研究,2019/01-2020/12,13万元,在研,主持;
4、中央高校基本科研业务费追加项目,L1507012, 薄带铸轧高锰TWIP钢亚稳奥氏体形变诱导孪晶强韧化机理的研究, 2015/01-2015/09,3万元,已结题,主持;
5、国家重点研发计划课题项目, 2017YFB0305000, 超低温及严苛腐蚀条件下低成本容器用钢开发与应用, 2017/07-2021/06,1228万元,在研,参与;
6、国家自然科学基金面上项目,N51374002, 基于双辊薄带连铸制备低损、高磁感、薄规格硅钢板的组织性能控制机理, 2014/01-2016/12,80万元,已结题,参与;
7、国家自然科学基金青年基金项目,N51804073薄带连铸流程基于热轧孪生行为的取向硅钢组织织构调控机理,2019/01-2021/12,25万元,在研,参与;
8、国家自然科学基金面上项目,N51674081,梯度超细晶钢的动态相变机理与制备技术,2017/01-2019/12,64万元,已结题,参与;
9、国家自然科学基金青年基金项目,N51204048,相间析出强化双相结构的组织性能控制机理研究,2013/01-2015/12,25万元,已结题,参与;
10、国家自然科学基金青年基金项目,N51604073,低温动载荷下富锰残余奥氏体的变形行为及韧化机理,2017/01-2019/12,20万元,已结题,参与;
11、中央高校基本科研业务费重大科技创新项目,N170708018, 节约型高性能LNG储罐用钢超低温韧化机理与制备技术,2018/01-2020/12,120万元,已结题,参与;
主要企业研发项目:
1、取向硅钢薄带抑制剂电镜检测,已结题,主持;
2、薄带连铸无取向硅钢的微观组织表征与分析,在研,主持;
3、中低牌号无取向硅钢系列产品磁性能提升技术开发及新产品开,在研,参与;
4、436不锈钢高温氧化行为及表面条纹缺陷产生机理研究,在研,参与;
5、首钢京唐热轧产线产品组织-性能-表面智能预测及工艺协同优化系统开发,在研,参与;
6、冷轧钢带连续退火工艺研究,已结题,参与;
7、节能型高硅电工钢薄带制备技术的研究及开发,已结题,参与;
8、驱动电机用高磁感硅钢产品研制在研,参与;
四、代表性成果(论文/专著/专利/获奖等)
论文情况:
1、期刊论文:
[1]Xiao Lyu&Weina Zhang,Shuang Liu,Xiaoyang Wang,Gen Li,Bowen Shi,Kai Wang,Xin Wang,Qiang Wang,Yi Jiad. A magnetic field strategy to porous Pt-Ni nanoparticles with predominant (111) facets for enhanced electrocatalytic oxygen reduction. Journal of Energy Chemistry, 2021, 53(2) , 192-196.(共同一作,SCI,影响因子9.676)
[2]Xiao Lyu&Wei-Na Zhang, Gen Li, Bo-Wen Shi, Ya-Nan Zhang, Hao Chen, Si-Cheng Li, Xin Wang, Two-Dimensional Porous PtPd Nanostructure Electrocatalysts for Oxygen Reduction Reaction, ACS Appl. Nano Mater. 2020, 3, 9, 8586–8591. (共同一作,SCI)
[3]ZhangWeina, LiuZhenyu*, ZhangZhibo, WangGuodong. The crystallographic mechanism for deformation induced martensitic transformation observed by resolution transmission electron microscope [J]. Materials Letters, 2013, 91:158-160.(SCI)
[4]张维娜,刘振宇*,王国栋.高锰TWIP/TRIP钢研究进展与应用[J].中国工程科学, 2014, 1:40-47.
[5]张维娜, 刘振宇, 王国栋. 高锰TRIP钢的形变诱导马氏体相变及加工硬化行为 [J],金属学报, 2010, 46(10): 1230-1236. (SCI)
[6]张维娜, 刘振宇, 王国栋. 高锰TRIP钢热变形行为研究 [J], 东北大学学报(自然科学版), 2010, 31(11): 1582-1585.
[7]张维娜, 刘振宇, 王国栋. 双辊铸轧高锰TRIP钢薄带的组织性能研究 [J], 轧钢, 2010, 27(1): 20-23.
[8]Haoze Li , Weina Zhang , Min Li , Ming Gao , Yingche Ma *, Kui Liu,Impacts of aging treatments on the microstructural evolutions, mechanical properties and strengthening mechanism in 1Cr15Ni36W3Ti,Journal of Alloys and Compounds,2020, 847, 156510 ( SCI影响因子4.65)
[9]Qiyuan Chen, Jiakuan Ren, Zhanglong Xie, Weina Zhang, Jun Chen, Zhen-Yu Liu, Correlation between reversed austenite and mechanical properties in a low Ni steel treated by ultra-fast cooling, intercritical quenching and tempering, Journal of Materials Science 2020 (55) 1840–1853. .( SCI影响因子3.553)
[10]QI-YUAN CHEN, WEI-NA ZHANG, ZHANG-LONG XIE, JIA-KUAN REN,JUN CHEN, and ZHEN-YU LIU, Influence of Intercritical Temperature on the Microstructure and Mechanical Properties of 6.5 Pct Ni Steel Processed by Ultra-fast Cooling, Intercritical Quenching and Tempering, METALLURGICAL AND MATERIALS TRANSACTIONS A 2020,51,3030-3041. .( SCI,影响因子2.05)
[11]Zhao-Jie Wang, Wei-Na Zhang, Yong-Wang Li, Guo-Dong Wang, Hai-Tao Liu⁎Heterogeneous nucleation of M2B-type borides (M = Cr, Fe) attached toTiB2 and Ti(C,N) particles in as-cast high borated steel,Materials Characterization,2020,169, 110588( SCI,影响因子3.562)
[12]Jian Li, Guangming Cao*, Hao Wang, Weina Zhang, Chenggang Li, Guodong Wang, Zhenyu Liu,Size effects of Y-enriched intermetallic precipitates in Fe-20Cr-5Al-0.25Y alloy on the spallation resistance of thermally grown α-Al2O3 scales,Corrosion Science,2020, 174:108796 ( SCI,影响因子6.479)
[13]YangXu*,WeinaZhang,MingxueSun,HailongYi,ZhenyuLiu.The blocking effects of interphase precipitation on dislocations’ movement in Ti-bearing micro-alloyed steels[J]. Materials Letters,2015,139:177-181.(SCI)
[14]Ming-XueSun, Wei-Na Zhang, Zhen-Yu Liu, Guo-Dong Wang. Effect of cooling mode on microstructure and mechanical properties in an extremely low carbon Cu bearing steel [J]. Materials Characterization, 2016, 120: 38-44. (SCI)
[15]MingxueSun, WeinaZhang, ZhenyuLiu, GuodongWang. Direct observations on the crystal structure evolution ofnanoCu-precipitates in an extremely low carbon steel [J]. Materials Letters, 2017, 187(15): 49-52. (SCI)
[16]MingxueSun, WeinaZhang*,ZhenyuLiu,GuodongWang. Influence of Cu on microstructure and mechanical properties for an extremely low carbon steel during isothermal process [J]. Steel Research International,2017,(88) :1- 7.(SCI)
[17]JUN CHEN,WEI-NA ZHANG*,ZHEN-YU LIU, and GUO-DONG WANG. The Role of Retained Austenite on the Mechanical Properties of a Low Carbon 3Mn-1.5Ni Steel[J].Metallurgical and materials transactionsA,2017,48A:5849-5859.(SCI)
[18]Jun Chen,Wei-naZhang, Zhen-yuLiu,Guo-dong Wang. Microstructural evolution and deformation mechanism of a Fe-15Mn alloy investigated by electron back-scattered diffraction and transmission electron microscopy [J]. Materials Science & Engineering A, 2017(698) 198–205.(SCI)
[19]Jun Chen and Wei-naZhang*. Manganese dependence of microstructure and mechanical properties in Fe–Mnalloy [J].Materials science and technology[J].2018, 34(1): 63-68(SCI)
[20]Yan Zhao, XinLiu, XinLi, Yuan Wang, Weina Zhang, and ZhenyuLiu. Pitting corrosion behavior in novelMn–N alloyed lean duplex stainless steel containing Cu.J MaterSci,2018(53):824–836.(SCI)
[21]Yan Zhao, WeinaZhang, ZhenyuLiu, GuodongWang. Development of an easy-deformable Cr21 lean duplex stainless steel and the effect of heat treatment on its deformation mechanism. Materials Science & Engineering A, 2017, (702): 279–288.(SCI)
[22]张志波,刘振宇*, 张维娜. VC沉淀粒子对TWIP钢加工硬化行为的影响[J]. 金属学报, 2012, 48(9):1067-1073.(SCI)
[23]刘振宇,张维娜,张志波,曹光明,李成刚,王国栋。超级强韧钢铸轧薄带的强韧化机理与制备技术。鞍钢技术,2017,(1)403,1-5.
[24]S H WANG, Z Y LIU, W N ZHANG, G D WANG, J L LIU, G F LIANG. Microstructure and Mechanical Property of Strip in Fe-23Mn-3Si-3Al TWIP Steel by Twin Roll Casting [J], ISIJ International. 2009, 49(9):1340-1346.( SCI)
2、会议论文:
[1]张维娜, 透射电子显微镜技术在钢铁材料研究中的应用[A].全国电子显微学学术年会,四川,成都,2020.11.21-25,分会场报告.
[2]ZHANGWeina*,ZHANGZhibo,LIUZhenyu,WANGGuodong. Transmission electron microscopy of deformation inducedmartensiteand deformation twins, Proceedings of the 5thBaosteelBiennial Academic Conference [A], (C)21-24, Shanghai, 2013.6.4-6,分会场报告.
[3]张维娜*,高翔宇,刘振宇,王国栋. Fe-20Mn-3Si-3Al汽车用钢变形机理研究[C].第十四届全国青年材料科学技术研讨会[A].辽宁,2013,10,25-28沈阳2013.10.25-27,分会场报告.
[4]Wei-na ZHANG, Zhen-yuLIU *, Guo-dong WANG. Influence of Deformation Temperature on Mechanical Properties and Deformation Mechanism in High Manganese TRIP Steel [C]. The First International Conference on High Manganese Steels [A]. Seoul, Korea,2011.5.15-18,分会场报告.
[5]ZHANG Wei-na, WANG Shu-han, LIU Zhen-yu, WANG Guo-dong.The Effects of Heat Treatments on Mechanical Properties and Deformation Behavior of Manganese TRIP Steel[C]. Proceedings of the 10th International Conference on Steel Rolling [A], Beijing, 2010, 9: 831-836.
[6]ZHANG Wei-na, LIU Zhen-yu, WANG Guo-dong. Hot Workability of High Manganese Transformation Induced Plasticity Steel [C], Proceedings of the 4th Baosteel Biennial Academic Conference [A], Shanghai, 2010, 11(C): 39-43.
科研获奖:
(1)张维娜, 沈阳市自然科学学术成果二等奖,总排名第2(校排名第2), 2019.7.10
(2)指导学生获得 “钢研杯”2019年全国钢铁材料透射电镜图像竞赛,二等奖1人,三等奖1人,优秀奖 5人
