2004-2008: 博士，材料科学与工程，南京理工大学 导师：陈光教授（中国科学院院士）
2001-2004: 硕士，材料学， 西安交通大学 导师：周敬恩 教授
1993-1997: 学士，材料科学， 兰州大学

2015.11-2022.06： 金属材料研究所所长
2012.12-至今：      教授，哈尔滨工程大学材料科学与化学工程学院
2013.01-2014.08： 研究副教授，美国奥本大学材料工程系
2012.01-2012.12： 研究助理教授，美国奥本大学材料工程系
2010.06-2011.12:    博士后研究员，美国橡树岭国家实验室（合作导师：CT Liu，美国工程院院士/X-L. Wang）
2009.08-2010.05:    博士后研究员，美国奥本大学材料工程系 （合作导师：CT Liu，美国工程院院士）
2008.06-2009.08:    讲师,硕士生导师，南京理工大学材料科学与工程系
1997.08-2001.08： 工程师/设备动力科科长，中国大连亚明汽车部件制造有限公司

1. 纳米相强化技术及应用，包括纳米相强化钢/不锈钢、纳米相强化高熵合金、纳米相强化耐辐照核结构材料等
2. 层错能调控合金设计及变形机制，包括超弹性高阻尼合金、超高强无磁钢、TRIP/TWIP 钢等
3. 船舶海工及核能应用新型金属材料
4. 中子散射技术

在研项目：
1. 基于中子源探测的全尺寸舰船钢构建服役性能评价研究，国家重点研发计划重点专项，主持
2. 超高强韧钢纳米相强化和韧化机制研究，国家自然科学基金-叶企孙联合基金重点项目，主持；
3. 高强度高韧性易焊接纳米相强化钢（2项），企业横向，主持；

欢迎有志于金属材料研究的学生到本课题组攻读硕士和博士学位。
Welcome to study in my group for Master and Doctor Degrees.
欢迎博士毕业生到本研究组从事博士后合作研究。
Welcome researchers with PH.D degree to work in my group as a Post-doctoral researcher

本科生课程：负责专业核心课《材料加工成形基础》（包括《液态成形原理》和《塑性成形原理》两部分），主讲《液态成形原理》

《海洋与极地工程材料》
《金属材料科学前沿》
《材料科学与工程进展》

2024-： 《焊接学报》编委会委员
2023- ：中国金属学会轧钢分会第八届委员会专家
2022-： 《High Engtropy Alloys and Materials》 编委
2022-： 中国机械工程学会焊接分会理事
2021- ：中国造船工程学会第四届船舶材料学术委员会 委员
2021- ：鞍钢集团海洋装备用金属材料及其应用国家重点实验室学术委员会委员
2020- ：《核动力工程》编委会委员
2020- ： 《造船技术》编委会副主任委员
2020- ： 粤港澳中子散射科学技术联合实验室学术委员会委员
2019- ： 武汉铁锚焊接材料股份有限公司专家委员会委员
2019- ： 中核集团核燃料与材料研发中心专家委员会专家
2018- ： 中国机械工程学会焊接分会理事
2017- ： 鞍钢集团海洋装备用金属材料及其应用国家重点实验室客座教授
2015-2019： Materials Characterization 编委
2013- ： 中国新材料技术协会副会长
2013- ： 黑龙江省金属学会轻金属专业委员会副主任
2010- ： 美国中子散射学会会员
2009- ： 美国焊接学会会员 (AWS)；美国焊接学会Auburn-Opelika分委会委员
2009- ： 美国矿业，金属与材料学会钢分会委员(TMS)

授权发明专利
1.    Zhongwu Zhang, Junpeng Li, Ultrahigh-strength maraging stainless steel with multiphase strengthening and preparation method thereof, US 11,767,574 B2, data filed Jul.15,2022, date of patent: Sep.26, 2023
2.    张中武;李俊澎;张洋;刘力源，一种低成本高强度高耐腐蚀性不锈钢及其制备方法，发明专利，ZL 2021 1 0265722.X，申请日，2021.03.11，授权公告日：2023.07.21
3.    张中武，李俊澎，一种超高强高性能中厚板马氏体时效不锈钢及其制备方法，发明专利 ZL 2022 1 0365532.X，专利申请日：2022.04.07，专利公告日：2023.09.19
4.    张中武，李俊澎，一种超高强高性能马氏体时效不锈钢及其温轧制备方法，发明专利，ZL 2022 1 0364156.2，申请日：2022.4.7，授权公告日：2023.09.19
5.    张中武，李俊澎，一种超高强高性能薄板马氏体时效不锈钢及其制备方法，发明专利，ZL202210365529.8，专利申请日：2022.04.07，授权公告日：2023.07.21
6.    张中武，魏兴豪，一种5～60mm厚850MPa级高强度高韧性易焊接纳米钢及其制备方法，发明专利ZL 2022 1 0965823.2，专利申请日期：2022年8月12日，授权公告日：2023年8月15日
7.    张中武，李俊澎，一种多相强化超高强马氏体时效不锈钢及其制备方法，发明专利ZL 202210365543.8，专利申请日期：2022年4月7日，授权公告日：2023年5月5日。
8.    张中武；魏兴豪，一种60～120mm厚850MPa级高强度高韧性易焊接纳米钢及其制备方法, 发明专利，ZL 2021 1 1341989.9，专利申请日期：2021年11月12日，授权公告日：2023年4月28日。
9.   张中武，李俊澎，一种2700MPa级高塑韧性高耐蚀马氏体时效不锈钢及其制备方法，发明专利，ZL202210364161.3，专利申请日期：2022年4月7日，授权公告日：2023年3月31日
10.   张中武，程浩，孙利昕，一种超高强无磁高锰钢及其制备方法，发明专利，ZL202210088185.0，专利申请日：2022年1月25日，授权公告日：2023年3月31日
11.   张中武，魏兴豪，一种25～60mm厚1000 MPa级高强度高韧性易焊接纳米钢及其制备方法，中国, 发明专利，ZL202111341994.X，专利申请日期：2021.11.12，授权公告日：2023年03月17日。
12.   张中武，魏兴豪，一种60～120mm厚1000 MPa级高强度高韧性易焊接纳米钢及其制备方法，中国, 发明专利，ZL202111340773.0，专利申请日：2021.11.12，授权公告日：2023年2月14日。
13.   张中武，李俊澎，一种2400MPa级高塑韧性高耐蚀马氏体时效不锈钢及其制备方法，发明专利，202210364148.8，专利申请日期：2022-04-7，授权公告日：2023.2.14
14.   张中武；李振鑫；张洋；杜康；董凯；黄涛，一种Fe-Ni-Co-Al-Dy超弹性合金及其制备方法，中国，发明专利，ZL202110813880.4，专利申请日期：2021.07.19，授权公告日：2022.12.13
15.   张中武;汪必琛;黎席廷;王茜宇，一种Fe-Mn-Al-Ni-Cu超弹性合金及其制备方法ZL202111199172.2，专利申请日：2021-10-14，授权公告日：2022.07.15
16.   崔烨；张中武；李星豪；连宏凯；张春毅；孙利昕；张洋；陈丹，一种CuAlMn形状记忆合金及制备方法，ZL202111102525.2，    授权公告日：2022.09.02
17.   张洋；杜康；张中武；黄涛；马亚玺；郁永政；黄楷岚，一种多晶FeNiCoAlNbV超弹性合金及其制备方法，ZL202110815417.3， 授权公告日：2022.06.17
18.   张洋；杜康；张中武；黄涛；马亚玺；郁永政；黄楷岚，一种多组元FeNiCoAlTiZr超弹性合金及其制备方法，       ZL202110815416.9， 授权公告日：2022.06.21
19.   崔烨；张中武；张春毅；连宏凯；李星豪；余明；张洋；孙利昕；陈丹，一种CuAlMnCoNi形状记忆合金及其制备方法    ZL202111147703.3 授权公告日：2022.06.21
20.   孙利昕，程浩，张中武，葛向阳，一种1200MPa级沉淀强化含钒高锰奥氏体钢及其制备方法，       202210088194.X，授权公告日：2022.11.01
21.   张中武；刘力源；张洋；韩基鸿；李俊澎；崔烨；孙利昕；陈丹，一种高塑性高强度的高熵合金及其制备方法，中国，发明专利，ZL202110678146.1，专利申请日：2021.6.18，授权公告日：2022.4.12
22.   张中武；蒋文清；张洋；韩基鸿；刘力源，一种低活化难熔中熵合金及其制备方法，中国，发明专利，ZL202110618583.4,专利申请人：2021.6.3， 授权公告日：2022.4.12
23.   张洋；张中武；龙邦篆；崔烨；孙利昕；陈丹，一种耐辐照含Cu纳米团簇强化高强度低合金钢及其制备方法，中国，发明专利，ZL201910979530.8，授权公告日：2021.11.09
24.   张洋；张中武；蒋文清；崔烨；孙利昕；陈丹，一种耐辐照抗冲击FeCoCrNiMn高熵合金及其制备方法，2019-10-15，中国，发明专利，ZL201910978598.4，授权公告日：2021.11.09
25.   崔烨；张中武；范明雨；韩佳澍；陈丹；张洋；孙利昕，一种含Er镁合金及制备方法，中国，发明专利，ZL201910977555.4，授权公告日：2021.10.28
26.   孙利昕；张中武；冯俊伟；黎席廷；纪佳楠；崔烨；张洋；陈丹，一种高强度含钒高锰奥氏体钢中厚板及其制备方法，中国，发明专利，ZL201910584610.3，授权公告日：2021.07.06
27.   崔烨；张中武；张旺；刘乃萌；李昕航；孙利昕；张洋；陈丹，一种FeMnAlNi形状记忆合金及其制备方法，中国，发明专利，ZL201910633939.4，授权公告日：2021.07.09
28.   张中武；李俊澎，一种铪锆钛增强奥氏体不锈钢及其制备方法，ZL201910903442.X，专利授权公告日：专利申请日：2019.9.24，2021-03-26
29.   张中武；李俊澎，一种铪锆钛钼增强奥氏体不锈钢及其制备方法，ZL201910903384.0，专利申请日：2019.9.24，专利公开/公告日：2021-01-05
30.   张中武;崔烨;范明雨;陈俊明;张洋;孙利昕;陈丹, 一种含Ho耐热镁合金及其制备方法, 201811354331.X, 专利申请日：2018.11.14，授权公告日：2020-12-04
31.   张中武， 崔烨， 辛显亮， 陈丹， 张洋， 孙利昕，一种CuAlMn形状记忆合金及其制备方法，ZL201811251035.7，专利公开/公告日：2019-01-01，授权公告日：2020-12-04
32.   一种哈氏合金与碳钢复合板及其制造方法，张中武， 杜鑫， 崔烨， 王潮洋， ZL201910007611.1，专利公开/公告日：2019-05-03，授权公告日： 2020.08.18
33.   一种锆钢复合板的制备方法，叶晖 ; 张中武 ; 蒙凯 ; 陈怀刚 ; 刘尊慈 ，ZL201710339710，公开（公告）日 : 2018.11.02，授权公告日： 2020.04.10
34.   一种利用铜做中间层制备锆钢复合板的方法（ Method for using copper as middle layer to prepare zirconium steel composite plate），张中武 ; 蒙凯 ; 陈怀浩 ; 叶晖 ; 刘尊慈，ZL201710340220， 公开（公告）日 : 2018.11.02，授权公告日：2020.04.10
35.   一种多孔B4C陶瓷骨架及其冷冻注模工艺（Porous B4C ceramic skeleton and freeze-casting process thereof），张中武 ; 马云涛 ; 张贺新 ; 王志伟 ; 唐小存 ; 蒋波 ，ZL201710044834，公开（公告）号 : CN106830942A，公开（公告）日 : 2017.06.13，授权公告日：2020.02.18
36.   一种高稀土含量的中子吸收材料及其制备方法（Neutron absorbing material with high rare earth content and preparation method thereof），张中武 ; 马云涛 ; 郭浩 ; 王志伟 ; 唐小存 ; 蒋波 ; 壮新 ，ZL201710051531，公开（公告）号 : CN106756281A， 公开（公告）日 : 2017.05.31，授权公告日：2019.10.25
37.   一种含铜纳米相强化中锰钢及其制备方法（Copper bearing nano-phase strengthened medium manganese steel and its manufacturing method ），张中武 ; 许松松 ; 李俊澎 ; 邱明星 ; ZL201710057125(公开（公告）号 : CN106834942A)，授权公告日：2018.08.31
38.   一种铒强化镁锂合金及其制备方法（Erbium strengthened magnesium-lithium alloy and preparation method thereof），张中武 ; 崔烨 ; 穆佳 ; 陈丹 ; 张洋 ，ZL201611074096（CN106676351B），授权公告日：2018.10.26
39.   一种含Cu纳米相强化易焊接钢及制备方法（Cu-containing nanophase strengthened easy-to-weld steel and preparation methods），张中武 ; 赵宇 ，ZL201610903401（CN106636961B），授权公告日：2018.04.24
40.   一种含Cu止裂钢及其制备方法（A steel with high brittle crack arrestability and its manufacturing method）， 张中武；陈丹; 崔烨; 张建; 张静，ZL2016104876983（CN105970099B），授权公告日：2017.12.19
41.   乏燃料贮运用中子吸收材料的制备方法（A method to prepare neutron-absorption materials for spent fuel storage and transportation），张中武; 解俊; 陈雅露，ZL201610129041X（CN105761773B）授权公告日：2017.09.29
42.   一种含铜纳米相强化低合金钢及其制备方法（A Cu-containing low alloy steel strengthened by nanoscale precipitates and its manufacturing method），张中武; 许松松，ZL2015106231502（CN105177425B），授权公告日：2017.06.20
43.   利用铜模快速凝固制备高强度镁锂合金的方法及铜模（A method to prepare high-strength Mg-Li alloy by fast solidification and its copper mound），张中武; 邹云，ZL2015102710692（CN104946947B），授权公告日：2017.03.08
44.   一种新型高密度中子吸收板（A novel high-density neutron-absorption plate），张中武，ZL201410190084X（CN103956192B），授权公告日：2016.12.07
45.   一种高碳化硼含量的铝基复合材料（An Aluminum-based composite-plate with high content of boron carbides），张中武，ZL201410189827（CN103962547B），授权公告日：2016.04.20
46.   环保型超声波辅助镁锂合金化学镀镍磷工艺（Environmentally- friendly ultrasonic-assisted electroless plating method on Mg-Li base alloys），张中武; 邹云，ZL2014100617779（CN103789753B），授权公告日：2015.10.28
47.   取向金属软磁合金材料及其制备方法（Grain-oriented metallic soft magnetic alloys and methods），陈光; 张中武，2008101228397（CN101620905B），授权公告日：2011.12.21
授权实用新型专利：
48.   一种用于制备粉末冶金材料的可调节热压模具，张中武; 马云涛; 郭浩; 王志伟; 唐小存; 蒋波; 壮新，ZL201720087263X（CN206415607U），授权公告日：2017.08.18
49.   一种用于制备多孔B4C陶瓷骨架的冷冻装置，张中武;马云涛; 王志伟; 唐小存; 蒋波; 壮新， 2017200839580（CN206416290U）授权公告日：2017.08.18
50.   一种用于制备多孔B4C陶瓷骨架的干燥装置，张中武;马云涛; 王志伟; 唐小存; 蒋波; 壮新，2017200839580（CN206416290U）授权公告日：2017.08.18
51.   混合机，张中武，谢俊，陈雅露，ZL2016201738544（CN205599083U），授权公告日：2016.09.28

学术著作：

1. Zhongwu Zhang, Ye Cui, Polar Materials in (Eds. Weicheng Cui, Shixiao Fu, Zhiqiang Hu) Encyclopedia of Ocean Engineering, Springer, March, 2020, DOI: https://doi.org/10.1007/978-981-10-6963-5_115-1
2. 张中武，海洋工程材料系列丛书-钢铁分册，中国工程院，2014年6月 （参与）

2024年 (* 为通讯作者)
1     Liyuan Liu, Yang Zhang*, Zhongwu Zhang*, Achieving ultrahigh strength and ductility via high-density nanoprecipitates triggering multiple deformation mechanisms in a dual-aging high-entropy alloy with precold deformation, Journal of Materials Science and Technology, 2025, 205, 页 27–41
2     Liyuan Liu, Yang Zhang, Sergey Rogozhkin, Artem Klauz, Caiju Li, Junpeng Li, Zhongwu Zhang*, Enhanced ductility via high-density nanoprecipitates driven by chemical supersaturation in a flash-heated precipitation-strengthened high-entropy alloy, Acta Materialia, 2024, 281, 120434
3     Junpeng Li, Weiguo Jiang, Yang Zhang, Liyuan Liu, Yongzheng Yu, Junhua Luan, Zengbao Jiao, Chain Tsuan Liu, Zhongwu Zhang*, Evolution and strengthening of nanoprecipitates in a high strength maraging stainless steel, Materials Science and Engineering: A, 2024, 915, 147198
4     Hao Cheng, Lixin Sun, Hongwu Song, Yingwei Liu, Xiyuan Xiao, Yang Zhang, Shihong Zhang, Zhongwu Zhang*, The gradient nanotwin structures in a high-Mn steel prepared by power spinning, Journal of Manufacturing Processes, 2024, 127, 页 388–396
5     Peng-fei Dai, Yang Zhang, Sergey Rogozhkin, Ji-hong Hang, Shu-wen Li, Zhong-wu Zhang*, Effect of Nb-content on the corrosion resistance of Co-free high entropy alloys in chloride environment, Tungsten, 2024, 6(4), 页 778–793
6     Zhenxin Li, Yang Zhang, Haosheng Wang, Pengfei Dai, Guangda Zhao, Zhongwu Zhang*, Effect of Cu Addition on Abnormal Grain Growth in a FeMnAlNi-Based Superelastic Alloy, JOM, 2024, 76(10), 页 5918–5931
7     Yaxi Ma, Yang Zhang, Lixin Sun, Zhongwu Zhang*, Refractory high-entropy alloys with ultra-high strength and strain hardening ability induced by heterogeneous deformation and microbands, Journal of Materials Science & Technology, 2024, 192, 页 215–227
8     Mingyu Fan, Ye Cui, Yang Zhang, Junpeng Li, Yanzuo Xue, Zhongwu Zhang*, Effect of Ho content on the microstructural stability and grain growth kinetics of wrought Mg-Y-Ho-Zn alloys, Materials Today Communications, 2024, 40, 110159
9     Hongbo Zhang, Mingyu Fan, Yang Zhang, Zhongbo Yang, Junpeng Li, Lixin Sun, Zhongwu Zhang, Corrosion behavior of Zr35Ti30Nb20Al10Ta5 refractory high entropy alloy after 400 days testing in 360？°C water and 400？°C steam, Materials Today Communications, 2024, 40, 109392
10    H. Chen, L. X. Sun, W. T. Li, Y, Zhang, Y. Cui, D. Chen, Zhongwu Zhang*, Enhancing strength-ductility synergy in high-Mn steel by tuning stacking fault energy via precipitation, Journal of Materials Science & Technology, Volume 187, 10 July 2024, Pages 240-247
11    Liyuan Liu, Yang Zhang, Zhongwu Zhang*, Microstructure evolution under He2+ ions irradiation in a high entropy alloy designed by constructing nanostructure engineering, Vacuum, 2024, 225, 113250
12    Zheng-qin Wang, Ming-yu Fan, Yang Zhang, Jun-peng Li, Li-yuan Liu, Ji-hong Han, Xing-hao Li, Zhong-wu Zhang*, A novel immiscible high entropy alloy strengthened via L12-nanoprecipitate, Journal of Central South University, 2024, 31(6), 页 1808–1822
13    Qinghao Wang, Ye Cui, Xinghao Li, Pulin Wu, Haosheng Wang, Zhongwu Zhang*, Effect of Ti content on abnormal grain growth of Fe-Mn-Al-Ni-Ti shape memory alloy, Smart Materials and Structures, 2024, 33(6), 065017
14    Wentao Li，Lixin Sun, Zhongwu Zhang*, Improving the tensile ductility of the high-strength nanotwinned high manganese steel by a strategy combining cold rolling and warm rolling，Materials Science and Engineering: A, 2024, 902, 146626
15    Pulin Wu, Yang Zhang, Guangda Zhao, Qinghao Wang, Zhongwu Zhang, Effect of Mo addition on the microstructure and superelastic properties of Fe-Mn-Al-Ni alloy, Materials Today Communications, 2024, 39, 108887
16    Hao Cheng, Xiting Li, Lixin Sun*, Wentao Li, Xiyuan Xiao, Yang Zhang, Ye Cui, Dan Chen, Bin Liu, Zhongwu Zhang*，Improving ductility of high strength nanotwinned steel with reverse transformation of epsilon martensite inside nanotwin lamellae, Materials Science and Engineering: A, 2024, 900, 146402
17    Xiyu Wang, Yang Zhang,* Zhongwu Zhang*, Junpeng Li, Liyuan Liu, Weiguo Jiang and Kang Du, High–number-density coherent nanoprecipitates induce superelasticity in a Fe-Ni-Co-Al-based alloy, JOM, JOM, 2024, 76(5), 页 2526–2536
18    Xinghao Wei, Tenglong Gong, Xue Cao, Gang Zhao, Zhongwu Zhang*, Effects of lath boundary segregation and reversed austenite on toughness of a high-strength low-carbon steel, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, 2024, 55(5), 页 1484–1494
19    Baoqi Guo, Huicong Chen, Yan Chong*, Wenqi Mao, Stefanus Harjo, Wu Gong, Zhongwu Zhang, John J. Jonas,Nobuhiro Tsuji, Direct observations of dynamic and reverse transformation of Ti-6Al-4V alloy and pure titanium, Acta Materialia, 2024, 268, 119780
20    李淑文，张洋，马亚玺，戴鹏飞，张中武*，Ta 含量对 ZrTiNbAl 系合金钝化膜形成机制和耐腐蚀性的影响, 材料工程，卷 52, 期 3, 页 117 – 128
21    Haosheng Wang, Mingyu Fan, Ye Cui*, Zhenxin Li, Xinghao Li, Qinghao Wang, Zhongwu Zhang*, Effects of Cr on the abnormal grain growth of Cu-Al-Mn-Ni-Cr superelastic alloy, Materials Today Communications, 2024, 38, 108432
22    J. W. Hao, Y. Zhang, Q. Y. Wang, Y. X. Ma, L. X. Sun, Zhongwu Zhang, Enhanced plasticity in a Zr-rich refractory high-entropy alloy via electron irradiation, Journal of Nuclear Materials, 2024, 590, 154876
23    Xinying Liu, Xue Cao *, Zhongwu Zhang *，Embrittlement mechanisms of HR3C pipe steel at room temperature in ultra-supercritical unit, Nanomaterials, 2024, 14(3), 306
24    Yongzheng Yu, Yang Zhang, Songsong Xu, Jihong Han, Junpeng Li, Chunhuan Guo, Fengchun Jiang, Gang Zhao, Zhongwu Zhang,* High-strain rate deformation of a nanoprecipitate-strengthened dual-phase steel, International Journal of Plasticity, 2024, 173, 103887
25    Yang Zhang, Zhongwu Zhang, High-entropy alloys as an irradiation-resistant structural material, High-Entropy Alloys: Design, Manufacturing, and Emerging Applications页 289 - 3211 January 2024
26    Xinghao Li , Ye Cui *, Chunyi Zhang , Guangda Zhao , Zhongwu Zhang **, Effects of Ni addition on abnormal grain growth in superelastic CuAlMnCoNi alloy, Materials Science and Engineering: A Volume 891, January 2024, 145973
27    L. Y. Liu, Y. Zhang, Zhongwu Zhang*, J. P. Li, W. G. Jiang, L. S. Sun, Nanoprecipitate and stacking fault-induced high strength and ductility in a multiscale heterostructured high-entropy alloy, International Journal of Plasticity, Volume 172, January 2024, 103853
28    Kang Du, Yang Zhang, Guangda Zhao, Tao Huang, Liyuan Liu, Junpeng Li, Xiyu Wang, Zhongwu Zhang**, Effect of grain orientation and precipitates on the superelasticity of Fe–Ni–Co–Al polycrystalline alloys, Materials Science and Engineering: A Volume 890, January 2024, 145858
29    Xiyu Wang, Yang Zhang*, Zhongwu Zhang*, Liyuan Liu, Bichen Wang, Ye Cui, Ian Baker, Jialin Cheng, Development of Fe-Ni-Co-Al-based superelastic alloys, Critical Reviews in Solid State and Materials Sciences, 2024, 49(2), 页 308–333

2024年  国家级领军人才
2024 年 工信部优秀导师
2022 年 中共哈尔滨工程大学模范教师
2021 年 中共哈尔滨工程大学优秀共产党员
2019 年 中共哈尔滨工程大学优秀共产党员
2018 年 哈尔滨工程大学“师德师风先进个人”
2007 年 黑龙江省杰出青年基金获得者
2013 年 黑龙江省讲座教授

1. 2024年 纳米相强化高强度高韧性易焊接钢及焊材关键技术，黑龙江省技术发明二等奖，排名第1
2. 2023年 高强度止裂钢关键技术及评价方法研究，中国造船工程学会科技进步奖 特等奖，排名第13
3. 2022年 高强韧易焊接钢纳米相强化技术及应用，中国造船工程学会科学技术奖技术发明二等奖，排名第1
4. 2022年 黑龙江省发明专利银奖1项，一种含Cu纳米相强化易焊接钢及制备方法，排名第1
5. 2022 年船舶与海洋工程行业专利奖优秀奖1项，排名第1
6. 2019年 高纯稀有金属铪提纯及铪锆的应用，黑龙江省科技进步一等奖，排名第1
7. 2017年 合金组织演变对塑性及变形行为的影响研究，黑龙江省自然科学三等奖，排名第1
8. 2016年 核级高纯铪锆及其提纯技术研发及产业化，中国产学研合作创新成果二等奖，排名第1

欢迎有志于金属材料研究的学生到本课题组攻读硕士和博士学位。
Welcome to study in my group for Master and Doctor Degrees.
欢迎博士毕业生到本研究组从事博士后合作研究。
Welcome researchers with PH.D degree to work in my group as a Post-doctoral researcher

课题组合影

2021年7月课题组团建

2020年1月课题组羽毛球赛

TMS2018国际会议

TMS2017国际会议

欢迎有志于金属材料研究的本科生和硕士生到本课题组攻读硕士和博士学位。
Welcome to study in my group for Master and Doctor Degrees.
欢迎博士毕业生到本研究组从事博士后合作研究。
Welcome researchers with PH.D degree to work in my group as Post-doctoral researcher

在读研究生/Current Graduate Students

 

 

郭浩

攻读学位：博士
入学年份：2015年
研究方向：碳化硼增强铝基复合材料研究

 

刘乃萌

攻读学位：博士
入学年份：2016年
研究方向：新型FeCrAl包壳材料研究

 

魏兴豪

攻读学位：博士
入学年份：2017年
研究方向： 纳米相析出机制及其对力学性能的影响研究

 

范明雨

攻读学位：博士
入学年份：2017年
研究方向：镁合金研究

 

Emam

攻读学位：博士
入学年份：2017年
研究方向：High Entropy Alloys

李俊澎

攻读学位：博士
入学年份：2018年
研究方向：高强度不锈钢

蒋文清

攻读学位：博士
入学年份：2018年
研究方向：高熵合金研究

 

商永轩

攻读学位：博士
入学年份：2018年
研究方向：富铜纳米相强化钢研究

 

王茜宇

攻读学位：博士 
入学年份：2020
研究方向：FeNiCoAl基形状记忆合金超弹性

 

刘力源

攻读学位：博士 
入学年份：2020
研究方向：纳米相强化高熵合金研究

 

韩基鸿

攻读学位：博士 
入学年份：2020
研究方向：高熵合金研究

 

 

刘昕颖

攻读学位：博士 
入学年份：2020
研究方向：纳米相强化钢研究

 

李星豪

攻读学位：博士 
入学年份：2021
研究方向：CuAlMn超弹性合金晶界迁移机制研究

 

姜卫国

攻读学位：博士 
入学年份：2021
研究方向：超高强不锈钢研究

 

李振鑫

攻读学位：博士 
入学年份：2021
研究方向：FeMnAlNi超弹性合金研究

 

黎席廷

攻读学位：硕士
入学年份：2019
研究方向：：高锰奥氏体钢的变形行为和沉淀强化

 

王胜江

攻读学位：硕士 
入学年份：2019
研究方向：富铜纳米相强化钢焊接性能研究

 

汪必琛

攻读学位：硕士 
入学年份：2019
研究方向： FeMnAlNi形状记忆合金的超弹性能与制备方法

 

连宏凯

攻读学位：硕士 
入学年份：2019
研究方向：超弹性CuAlMn形状记忆合金

 

吴广传

攻读学位：硕士 
入学年份：2019
研究方向：富铜纳米相强化钢相变机制和力学性能

 

 

赵光达

攻读学位：硕士 
入学年份：2020
研究方向：Fe基超弹性合金

 

马亚玺

攻读学位：硕士 
入学年份：2020
研究方向：难熔高熵合金
 

黄楷岚

攻读学位：硕士 
入学年份：2020
研究方向：高熵超弹性合金

 

杨云傲

攻读学位：硕士 
入学年份：2020
研究方向：FeMnAlNi超弹性合金

郁永政

攻读学位：硕士 
入学年份：2020
研究方向：纳米相强化钢高速冲击


 

马景明

攻读学位：硕士 
入学年份：2020
研究方向：FeCrAl包壳材料

 

杜康

攻读学位：硕士 
入学年份：2020
研究方向：Fe-Ni-Co-Al基超弹性合金

 

黄涛

攻读学位：硕士 
入学年份：2020
研究方向：超弹性合金

 

葛向阳

攻读学位：硕士 
入学年份：2020
研究方向：高强度高锰钢

 

董凯

攻读学位：硕士 
入学年份：2020
研究方向：铁基超弹性合金

 

程浩

攻读学位：硕士 
入学年份：2020
研究方向：高锰钢
 

 

刘浩典

攻读学位：硕士 
入学年份：2020
研究方向：镍基高温合金

 

刘闯

攻读学位：硕士 
入学年份：2020
研究方向：FeMnAlNi超弹性合金马氏体相变

 

赵晏

攻读学位：硕士 
入学年份：2020
研究方向：纳米强化钢的焊接性

 

付璐

攻读学位：硕士 
入学年份：2020
研究方向：纳米相强化钢夹杂与偏析

 

丛树声

攻读学位：硕士 
入学年份：2020
研究方向：Fe-Mn-Si合金的超弹性研究


 

张春毅

攻读学位：硕士 
入学年份：2020
研究方向：CuAlMnCoNi超弹性合金

毕业学生/Graduated Students

邹云

毕业时间：2016.6
所获学位：工学博士
毕业论文题目： 镁锂合金成分和处理工艺对变形机制及性能的影响 
工作单位：郑州大学 讲师

C. O. Muga

刘苏阳

毕业时间：2015.3
所获学位：工学硕士
研究方向：稀土镁合金
就业单位：美的集团 

张扬

毕业时间： 2015.6 
所获学位：工程硕士
毕业论文题目：富铜纳米团簇强化高强低合金钢时效行 为研究 
工作单位：江苏双登集团股份有限公司 研发工程师 

王文海

毕业时间： 2016.3 
所获学位：工学硕士
毕业论文题目：铁硅合金的再结晶及力学行为研究
工作单位：东北轻合金有限责任公司 助理工程师
 

张静

毕业时间： 2017.3 
所获学位：工学硕士
毕业论文题目：合金元素与热处理对高强度止裂钢组织与性能的影响研究 
工作单位：上海电驱动股份有限公司 工艺工程师

李俊澎

毕业时间：2017.3 
所获学位：工学硕士
毕业论文题目：热处理对含铜高锰钢组织及力学性能影响的研究
工作单位：哈尔滨工程大学 读博

张建

毕业时间：2016.6 
所获学位：工程硕士
毕业论文题目：热机械处理对含Cu止裂钢显微组织及力学性能影响的研究
工作单位： 中建钢构有限公司 商务管理

邱明星

毕业时间：2017.6 
所获学位：工程硕士
毕业论文题目：定向凝固对CuCrFeNiMn系多主元合金组织及性能的影响
工作单位：中信戴卡股份有限公司（秦皇岛） 产品工程师

马慧君

毕业时间：2018.3
所获学位：工学硕士
毕业论文题目：高强度低合金钢织构变化及其对力学性能影响研究
毕业去向：中国航发沈阳黎明航空发动机有限责任公司  

陈明江

毕业时间：2018.3
所获学位：工学硕士
毕业论文题目：电脉冲处理对富铜纳米相强化钢组织结构及力学性能的影响
毕业去向：航天科工集团第十研究院第十总体设计部（贵州）
 

郭吉顺

毕业时间：2018.3
所获学位：工学硕士
毕业论文题目：Cu Ni 对止裂钢耐蚀行为的影响
毕业去向：中车青岛四方车辆研究所有限公司
 

蒙凯

毕业时间：2018.3
所获学位：工学硕士
毕业论文题目：锆/钢真空扩散连接及界面元素扩散行为研究
毕业去向：中兴通讯股份有限公司
 

牛建坤

毕业时间：2018.3
所获学位：工学硕士
毕业论文题目：焊接与轧制过程对高强度低合金钢显微结构与力学性能的影响
毕业去向：中国航发沈阳发动机研究所
 

陈俊明

毕业时间：2018.3
所获学位：工学硕士
毕业论文题目：Ho对Mg-Y-Zn系合金组织与性能影响的研究
毕业去向：重庆京东方光电科技有限公司

毛梦佳

毕业时间：2019.3
所获学位：工学硕士
毕业论文题目：热处理对纳米相强化钢组织和性能的影响
毕业去向：中兴通讯股份有限公司

杜鑫

毕业时间：2019.3
所获学位：工学硕士
毕业论文题目：热轧工艺对哈氏合金/钢复合金属板显微组织和力学性能的影响
毕业去向：长春一汽富维安道拓汽车金属零部件有限公司
 

温亚捷

毕业时间：2019.3
所获学位：工学硕士
毕业论文题目：纯度对金属铪显微组织及力学性能的影响研究
毕业去向：广东美的厨房电器制造有限公司

 

张健能

毕业时间：2019.3
所获学位：工学硕士
毕业论文题目：Fe-Cr-Al合金的耐腐蚀性能研究
毕业去向： 南京中兴新软件有限责任公司

 

李鹏飞

毕业时间：2019.3
所获学位：工学硕士
毕业论文题目：高强度低合金钢织构形成及其对力学性能的影响
毕业去向：天津三环乐喜新材料有限公司

 

辛显亮

毕业时间：2019.3
所获学位：工学硕士
毕业论文题目：
毕业去向：福建福清核电有限公司

刘迪

毕业时间：2019.3
所获学位：工学硕士
毕业论文题目：铝钢爆炸焊复合板微观结构和性能研究
毕业去向：一汽解放汽车有限公司

王潮洋

毕业时间：2019.3
所获学位：工学硕士
毕业论文题目：Inconel600/钢轧制复合板的显微结构及力学性能研究  
毕业去向：京东方科技集团股份有限公司

崔聪垒

毕业时间：2019.6
所获学位：工程硕士
毕业论文题目：富铜纳米相强化钢的焊接性能研究
毕业去向：潍柴动力股份有限公司

 

冯俊伟

毕业时间：2020.3
所获学位：工学硕士
毕业论文题目：
毕业去向：歌尔集团

 

纪佳楠

毕业时间：2020.3
所获学位：工学硕士
毕业论文题目：
毕业去向：迈瑞医疗有限公司

 

龙邦篆

毕业时间：2020.3
所获学位：工学硕士
毕业论文题目：富铜纳米相强化钢在高速冲击下绝热剪切带的形成机制研究
毕业去向：哈工大读博

郑浩

毕业时间：2020.3
所获学位：工学硕士
毕业论文题目：高强钢中夹杂物杂在不同强化条件下对冲击性能的影响
毕业去向：烟台中集来福士海洋工程有限公司

韩伦

毕业时间：2020.3
所获学位：工学硕士
毕业论文题目：富铜纳米相强化钢焊接性能
毕业去向：中国电子科技集团公司第十三研究所

宋扬

毕业时间：2020.3
所获学位：工学硕士
毕业论文题目：铌钛微合金化低碳钢组织和性能的影响
毕业去向：哈工大读博

周子杰

毕业时间：2020.3
所获学位：工学硕士
毕业论文题目：乏燃料运输容器灌铅凝固数值模拟分析
毕业去向：哈尔滨东安发动机有限公司

 

 

Post-doctoral positions are opening
Welcome researchers with PH.D degree to work in my group as a Post-doctoral researcher

Positions for Master and Doctor Degrees  are opening
Welcome to study in my group for Master and Doctor Degrees.

Profile

Dr. Zhang is a chair professor of Heilongjiang province. He joined faculty in the college of materials science and chemical engineering at Harbin Engineering University, Harbin, since June 2013. He has been working in the areas of nanostructured steels and alloys, radiation-tolerant alloys, ultra-light alloys and advanced metallic materials and the application of atom probe tomography and small angle neutron scattering. He has published over 100 SCI papers, 31 patents and presented numerous invited talks at various national and international conferences. He is a recipient of numerous “Outstanding Performance” awards from either academic societies or government. Dr. Zhang is the director of institute for advanced metallic materials at Harbin Engineering University.

Education
2004-2008:     Ph.D., Materials Science and Engineering, 1^st Class Honors
                       Nanjing University of Science and Technology, China
                       Thesis title: Dynamics and mechanism of columnar grain growth under directional annealing
2001-2004:     M.Sc., Materials Science, 1^st Class Honors
                       Xi’an Jiaotong University, China 
                       Thesis title: Syntheses of W-Ni-Fe Heavy Alloys by Mechanical Alloying
1993-1997:     B.S., Materials Science
                       Lanzhou University, China

Professional Experience
Nov. 2015-present: Director
      Institute for Advanced Metallic Materials
      Harbin Engineering University, China
Mar. 2013-present: Chair Professor
      College of Materials Science & Chemical Engineering
      Harbin Engineering University, China
Jan. 2013 –Aug. 2014: Research Associate Professor
      Materials Engineering, Auburn University, USA
Jan. 2012- Dec. 2012: Research Assistant Professor
      Materials Engineering, Auburn University, USA
Jun. 2010- Dec. 2011 Postdoctoral research fellow
     Neutron Scattering Science Division, Oak Ridge National Laboratory, USA (Collaborator: Profs. C T Liu, X.L. Wang and Mike Miller)
Aug. 2009- May. 2010: Postdoctoral research fellow
      Materials Engineering, Auburn University, USA (Prof. C T Liu)
Jun. 2008- Aug. 2009: Lecture (Equivalent to Assistant Professor in the USA)
      School of Materials Science and Engineering
Aug. 1997-Aug. 2001: Manager - the equipment and energy division        
      Dalian Yaming Auto Parts Manufacturing Co. Ltd. Dalian, China
      
Honors and awards
2019    Science and Technology Progress Award of Heilongjiang province (First class)
2017    Natural Science Award of Heilongjiang province (Third class)
2017    Winner of Natural Science Foundation of Heilongjiang Province for Distinguished Young Scholars
2017    Excellent reviewer of Journal of Scientific Research and Reports
2016    Innovative Achievement Award for China University-Industry Cooperation (Second class)
2015    Scientific Chinese Figures 2014
2014    Academic leaders of Harbin City
2013    Chair Professor (Longjiang Scholar)  of  Heilongjiang Province, China
2012    Cover person of the website of Oak Ridge National Laboratory (USA).
2009    Excellent academic paper award for natural science (3^rd Prize)
            Nanjing Government, China
2008    Listed in Who's Who in Science and Engineering
2008    Most outstanding postgraduate student (top 5 percent)
            Nanjing University of Science and Technology
2007    Excellent academic paper award for natural science (3^rd Prize)
            Nanjing Government, China
2007    Excellent academic paper award for natural science
            Nanjing Association for Science and Technology

Professional Societies and Activities
2018-present:  Council Member of Welding Branch of Chinese Mechanical Engineering Society
2017-present:   Guest Professor of State key laboratory of metal materials for Marine equipment and their applications
2015-present:   Editorial Board Member of Materials Characterization
2014-present:  Board of Advisors, International Science and Technology Collaboration Program, Ministry of Science and Technology, China
2013-present:  Project Manager, Base of Discipline Innovation and Foreign Talent Introduction, Harbin Engineering University
2013-present:  Vice Chairmen, Advanced Materials and Technology Associate of China
2013-present:  Vice director, Professional committee of Light Matels, Society for Metals in Heilongjiang Province
2013-present:  Board of Advisors, Science and Technology Program of Heilongjiang Province
2010-present:  Member of the Neutron Scattering Society of America (NSSA)
2010-present：Member of the Materials Research Society of America (MRS)
2009-present:  Member of the American Welding Society (AWS)
2009-present:  Member of the Minerals, Metals & Materials Society (TMS)
2004-present:  Member of the Chinese Materials Research Society (CMRS)
 
Journal reviewer: 
Nature Communicatiions, Acta Materialia, Corrosion Science, Materials Science and Engineering A, Scientific Reports, Intermetallics, Journal of Materials Research, Welding Journal, Science and Technology of Welding and Joining, Journal of Applied Physics, International Journal of Engineering Science and Technology，Journal of the Electrochemical Society, Steel research international, Materials Characterization, Scientific Reports, Journal of Scientific Research and Reports......

University Committees:
Faculty Appointments Committee
Ph.D. Graduation Evaluation Committee
Graduate Program Committee
Undergraduate Program Committee
Young Talent Faculty Fellowships Committee

Courses Taught
Fundamentals of Materials processing and forming (Undergraduate)
Introduction to Materials Science and Engineering (Undergraduate)
Introduction to Materials for Marine Engineering (Graduate)

Research Interests
Investigate the structure-property relationship; Characterize the structure and property, specifically the thermodynamic and kinetic of nanocluster precipitation and strengthening mechanism of nano-structured materials; Recrystallization of metals and alloys, specifically dynamic and kinetic of grain boundary migration during directional annealing, grain boundary character distribution and texture control; High temperature, high performance and radiation-resistant materials; Radiation effects; Corrosion; Superlight alloys; 3D atom probe tomography and Neutron/X-ray scattering.

Papers in English
 

*  Corresponding author
 

1. 77 Liyuan Liu, Yang Zhang*, Jingming Ma, Yongxuan Shang, Jihong Han, Junpeng Li, Zhongwu Zhang*, Transition of plastic deformation mechanisms governed by spacing of nano-precipitates in a high entropy alloy, Scripta Materialia Volume 217, August 2022, 114771.

2. 76 Zhenxin Li, Yang Zhang *, Kai Dong, Zhongwu Zhang *, Research Progress of Fe-based Superelastic Alloys, Crystals, 2022, 12, 602. https://doi.org/10.3390/cryst12050602

3. 75 Dan Chen, Zhenqiang Wang , Hongkai Lian, Yongxuan Shang, Mingyu Fan, Lu Dai, Yang Zhang, Lixin Sun, Ye Cui, Zhongwu Zhang*, Effects of thermomechamocal treatments on the microstructure and mechanical property of a microalloyed steel, Materials Science and Engineering A, Volume 842, 11 May 2022, 143087

4. 74 Ye Cui, Yang Zhang, Lixin Sun, Mikhail Feygenson, Xun-Li Wang, Peter K. Liaw , Ian Baker & Zhongwu Zhang*, Phase transformation via atomic-scale periodic interfacial energy, Materials Today Physics, volume 24, May 2022, 100668

5. 73 Liyuan Liu, Yang Zhang*, Junpeng Li, Mingyu Fan, Xiyu Wang, Guangchuan Wu, Zhongbo Yang, Junhua Luan, Zengbao Jiao, Chain Tsuan Liu, Peter K Liaw, and Zhongwu Zhang **, Enhanced strength-ductility synergy via novel bifunctional nano -precipitates in a high entropy alloy entropy, International Journal of Plasticity, 2022, 153:103235

6. 72 Liyuan Liu, Yang Zhang *, Guangchuan Wu, Yongzheng Yu, Yaxi Ma, Jingming Ma, Ian Baker, Zhongwu Zhang *，The effect of Al/Ti ratio on the evolution of precipitates and their effects on mechanical properties for Ni35(CoCrFe)55AlxTi10-x high entropy alloys, Journal of Alloys and Compounds, 2022, 906(No.5):164291

7. 71 Hao Guo, Junpeng Li, Naimeng Liu, Xinghao Wei, Mingyu Fan, Yongxuan Shang, Wenqing Jiang, Yang Zhang, Ye Cui, Lixin Sun, Ian Baker, Zhongwu Zhang *, Strengthening and toughening B₄C/Al composites via optimizing the Al₂O₃ distribution during hot rolling, Journal of Alloys and Compounds, 2022, 902(8):163773

8. 70 Mingyu Fan, Ye Cui*, Yang Zhang, Xinghao Wei, Xue Cao, Peter K Liaw, and Zhongwu Zhang *, Achieving high strength-ductility synergy in an Mg97Y1Zn1Ho1 alloy via a nano-spaced long-period stacking-ordered phase, Journal of Magnesium and alloys, 2022, DOI: 10.1016/j.jma.2022.01.002

9. 69 Xinghao Wei, Xue Cao*, J.H. Luan, Z. B. Jiao, C. T. Liu and Z. W. Zhang*, Synergy of strengthening and toughening of a nanoprecipitate-strengthened steel, Materials Science and Engineering A 832 (2022) 142487

10. 68 Y. Zhang, W. Q. Jiang, A. Gokhman, J. J. Yang, K. Shi, J. H. Luan, Y. Cui, *, Peter K Liaw, C. T. Liu, and Z. W. Zhang*, Enhanced irradiation tolerance of Fe30Cr25Ni20Co15Mn10 high-entropy alloy via nanotwin boundaries, Journal of Nuclear Materials, Journal of Nuclear Materials 557 (2021) 153292

11. 67 S.S. Xu, X.H. Lu, S.C. Liu*, L. Chen, Y. Zhang , X.Z. Li, Z.W. Zhang*, Precipitation strengthening of Cu/NiAl co-precipiates in a martensite-austenite dual-phase steel, Materials Characterization 182 (2021) 111589

12. 66 L. Y. Liu , Y. Zhang, J. H. Han, X. Y. Wang, W. Q. Jiang, C. T. Liu and Z. W. Zhang *, and P. K. Liaw *，Nano-precipitate-Strengthened High-Entropy Alloys, Advanced Sciences, 2021, 8, 2100870

13. 65 Naimeng Liu, Xue Cao*, Tan Zhao and Z. W. Zhang*, Progress of zirconium alloying in iron-based alloys and steels, Material Science and Technology, 37(9), 2021: 830-851

14. 64 Di Xie, Zongyang Lyu, Mingyu Fan, Huck Beng Chew, Peter K. Liaw, Hongbin Bei, Zhongwu Zhang, Yanfei Gao, Micromechanical origin of the enhanced ductility in twinless duplex Mg-Li alloy, Materials Science and Engineering A, 815 (2021): 141305

15. 63 B. Z. Long, Y. Zhang*, G. H. Guo, Y. Cui, L. X. Sun, D. Chen, F. C. Jiang, T. Zhao, G. Zhao, Z. W. Zhang*, Enhanced dynamic mechanical properties and resistance to the formation of adiabatic shear band by Cu-rich nano-precipitates in high-strength steels, International Journal of Plasticity, 138(2021):102924

16. 62 Yingwei Liu*, Zhongwu Zhang, Yang Zhang, Two-Dimensional Numerical Analysis of Differential Concentration Corrosion in Seawater Pipeline, Anti-Corrosion Methods and Materials, 67(3), 2020, pp. 257-268

17. 61 Cui, Y; Liu, D ; Fan, MY; Deng, GP; Sun, LX; Zhang, Y; Chen, D; Zhang, ZW*，Microstructure and mechanical properties of TA1/3A21 composite plate fabricated via explosive welding，MATERIALS SCIENCE AND TECHNOLOGY，2020 March 3，v 36, n 4, p 425-433

18. 60 Hao Guo, Zhongwu Zhang*, Yang Zhang, Ye Cui, Lixin Sun, Dan Chen，Improving the mechanical properties of B4C/Al composites by solid-state interfacial reaction, Journal of Alloys and Compounds, Volume 829, 15 July 2020, 154521

19. 59 S. S. Xu, Y. W. Liu, Y. Zhang, J. H. Luan, J. P. Li, L. X. Sun, Z. B. Jiao, Z. W. Zhang*, C. T. Liu*，Precipitation kinetics and mechanical properties of nanostructured steels with Mo additions, Materials Research Letters, 2020, VOL. 8, NO. 5, 187–194

20. 58 Muhammad Naeem, Haiyan He, Fan Zhang, Hailong Huang, Stefanus Harjo, Takuro Kawasaki, Bing Wang, Si Lan, Zhenduo Wu, Feng Wang, Yuan Wu, Zhaoping Lu, Zhongwu Zhang, Chain T. Liu, Xun-Li Wang*, Cooperative deformation in high-entropy alloys at ultralow temperatures, Science Advances, 2020，Vol. 6, no. 13, eaax4002

21. 57 S. S. Xu, J. P. Li, Y. Cui, Y. Zhang, L.X. Sun, J. Li, J. H. Luan, Z. B. Jiao, X-L. Wang, C. T. Liu, Z. W. Zhang*, Mechanical properties and deformation mechanisms of a novel austenite-martensite dual phase steel, International Journal of Plasticity, 2020, 128: 102677

22. 56 Yang Zhang, Bangzuan Long, Kai Meng, Aleksandr Gohkman, Ye Cui, Zhongwu Zhang*, Diffusion bonding of Q345 steel to zirconium using an aluminum interlayer, Journal of Materials Processing Technology, Volume 275, January 2020, 116352

23. 55 Liu, Yingwei*, Zhang, Zhongwu, Zhang, Yang, Zhang, Jianneng, Determination of the auxiliary anode position via finite element method in impressed current cathodic protection, Anti-Corrosion Methods and Materials, v 66, n 4, p 432-438, July 1, 2019

24. 54 Guo, H ; Zhao, Y ; Xu, SS ; Li, JP ; Liu, NM ; Zhang, Y ; Zhang, ZW*，Influence of high B4C contents on structural evolution of Al-B4C nanocomposite powders produced by high energy ball milling, CERAMICS INTERNATIONAL, 45(5)  APR 1 2019: 5436-5447

25. 53 Y. Zhao, X. Tong, X. H. Wei, S. S. Xu, S. Lan, X-L. Wang, Z. W. Zhang*, Effects of microstructure on crack resistance and low-temperature toughness of ultra-low carbon high strength steel, International Journal of Plasticity, Volume 116 May 2019, Pages 203-215

26. 52 Yang Zhang, Bangzuan Long, Yajie Wen, Zhongwu Zhang*, Wenwu Cao*, Electric field and frequency dependent scaling behavior of dynamic hysteresis in relaxor-based ferroelectric 0.71Pb(Mg1/3Nb2/3)O3–0.29PbTiO3 single crystal, Journal of Alloys and Compounds, Journal of Alloys and Compounds, Volume 775, 15 February 2019, Pages 435-440.

27. 51 Songsong Xu, Yu Zhao, Liangwei Sun, Liang Chen, Xin Tong, Jing Zhang, Yun Zou, Junpeng Li, Guangai Sun, J. Gong, Zhongwu Zhang*. Nanoscale precipitation and its influence on the precipitation strengthening mechanisms in an ultra-high strength low-carbon steel, International Journal of Plasticity, 113 (2019) 99-110

28. 50 Kai Meng, Yang Zhang, Zhong-wu Zhang*, Diffusion bonding of low carbon steel and pure zirconium with Cu-base amorphous interlayer, Journal of Materials Processing Technology, Volume 262, December 2018, Pages 471-478.

29. 49 Y. Zhao, H. Guo, S.S. Xu, M.J. Mao, L. Chen, O. Gokhman, Z. W. Zhang*, Effects of solid solution treatments on the microstructure and mechanical properties of a nanoscale precipitate-strengthened ferritic steel, Metallurgical and Materials Transaction A, August 2018, 49(8):3383-3393

30. 48 Hao Guo, Zhongwu Zhang*, Processing and strengthening mechanisms of boron-carbide-reinforced aluminum matrix composites, Metal Powder Report, volume 73, issue 2, March-April 2018, pages 62-67

31. 47 Yun Zou, Lehao Zhang, Hongtao Wang, Jiabin Liu, Peter.K. Liaw, Hongbin Bei, Zhongwu Zhang*, Improvement of mechanical properties of a superlight Mg-Li base alloy by duplex phases and fine precipitates, Journal of Alloys and Compounds, Volume 735, 25 February 2018, Pages 2625-2633

32. 46 Yang Zhang, Aleksandr Gokhman, Wenhai Wang, Zhongwu Zhang*，Effects of annealing on the grain-boundary character distribution and texture evolution in hot rolled Fe-6.5 wt. % Si alloy, Journal of Magnetism and Magnetic Materials, Volume 451, 1 April 2018, Pages 187-192.

33. 45 Yang Zhang, Zhaojiang Chen, Wenwu Cao* and Zhongwu Zhang*, Temperature and frequency dependence of the coercive field of 0.71PbMb1/3Nb2/3O3–0.29PbTiO3 relaxor-based ferroelectric single crystal, Appl. Phys. Lett. 111, 172902 (2017)

34. 44 J. L. Cheng, G. Chen*, W. Zhao, Z. Z. Wang, Z. W. Zhang*, Correlation of the glass formation and phase selection of the Mg-Cu-Gd bulk metallic glass forming alloys, Journal of Non-Crystalline Solids, Volume 472, 15 Sep 2017, Pages 61-64

35. 43 Wei Wang, Jinghuai Zhang*, Guoqiang Li, Yan Feng, Qiang Yang, Minliang Su, Yufeng Jiao, Zhongwu Zhang, Microstructural stability of heat-resistant high-pressure die-cast Mg-4Al-4Ce alloy, INTERNATIONAL JOURNAL OF MATERIALS RESEARCH, 108:5, 427-430, 2017.

36. 42 Yang Zhang, Liguo Tang, Hua Tian, Jiyang Wang, Wenwu Cao, Zhongwu Zhang*, Determination of temperature dependence of full matrix material constants of PZT-8 piezoceramics using only one sample constants of PZT-8 piezoceramics using only one sample, Journal of Alloys and Compounds, Volume 714, 14 April 2017, Pages 20-25

37. 41 Jialin Cheng, Guang Chen, W. Zhao, Z.Z. Wang, Z.W. Zhang*, Enhancement of tensile properties by the solid solution strengthening of Nitrogen in Zr-based metallic glass composites, Materials Science and Engineering: A, Volume 696, 27 April 2017, Pages 461-465

38. 40 S.S. Xu, Y. Zhao, X. Tong, H. Guo, L. Chen, L.W. Sun, M. Peng, M.J. Chen, D. Chen, Y. Cui, G.A. Sun, S.M. Peng, Z.W. Zhang*，Independence of work hardening and precipitation strengthening in a nanocluster strengthened steel，Journal of Alloys and Compounds, Volume 712, 25 July 2017, Pages 573-578

39. 39 C. O. Muga, H. Guo, S. S. Xu, Z. W. Zhang*, Effects of aging and fast-cooling on the mechanical properties of Mg-14Li-3Al-3Ce alloy, Materials Science & Engineering A689, 24 Mar 2017:195-202

40. 38 Y Zhao, S.S. Xu, J.P. Li, J. Zhang, L.W. Sun, L. Chen, G.A.Sun, S.M. Peng, Z.W. Zhang*, Enhancement of low temperature toughness of nanoprecipitates strengthened ferritic steel by delamination structure. Materials Science and Engineering: A, Volume 691, 13 April 2017, Pages 162-167

41. 37 Minliang Su, Jinghuai Zhang*, Yan Feng, Yijia Bai, Wei Wang, Zhongwu Zhang, Fengchun Jiang, Al-Nd intermetallic phase stability and its effects on mechanical properties and corrosion resistance of HPDC Mg-4Al-4Nd-0.2Mn alloy, Journal of Alloys and Compounds, Volume 691, 15 January 2017, Pages 634–643

42. 36 C.O. Muga, H. Guo, Y. Zou, S. Xu, Z.W. Zhang*, Effects of Holmium and Hot-rolling on Microstructure and Mechanical Properties of Mg-Li based alloys, Journal of Rare Earths, 2016, 34(12):1269-1276

43. 35 Lehao Zhang, Yun Zou, Hongtao Wang, Liang Meng, Jiabin Liu, Zhongwu Zhang*, Surface nanocrystallization of Mg-3 wt.% Li-6 wt.% Al alloy by surface mechanical attrition treatment, Materials Characterization, 120(2016):124-128

44. 34 C.O. Muga and Z.W. Zhang*, Strengthening Mechanisms of Magnesium-Lithium-Based Alloys and Composites, Advances in Materials Science and Engineering, Volume 2016, Article ID 1078187, 11 pages.

45. 33 Yun Zou, Jian Li, Hong Wang, Ke An, Milin Zhang, Zhongwu Zhang*, Deformation mode transition of Mg-3Li alloy: an in situ neutron diffraction study, Journal of Alloys and Compounds, Volume 685, 15 November 2016, Pages 331-336.

46. 32 Yun Zou, Lehao Zhang, Hongtao Wang, Xin Tong, Milin Zhang, Zhongwu Zhang*, Texture evolution and their effects on the mechanical properties of duplex Mg-Li alloy, Journal of Alloys and Compounds, Volume 669, 5 June 2016, Pages 72-78.

47. 31 Jianfeng Sun, Zhongwu Zhang,*, Milin Zhang, Fengchun Jiang, Minghui Ding, Microstructure evolution and their effects on the mechanical properties of TB8 titanium alloy, J  Alloys Comp.,  Volume 663, 5 April 2016, Pages 769-774

48. 30 Yufeng Jiao, Jinghuai Zhang, Pengyu Kong, Zhongwu Zhang, Yongbin Jing, Jinpeng Zhuang, Wei Wang, Li Zhang, Chi Xu, Ruizhi Wu and Milin Zhang，Enhancing the performance of Mg-based implant materials by introducing basal plane stacking faults，Journal of Materials Chemistry B，3:7386-7400, 2015

49. 29 Z. W. Zhang*, L. Yao, X.-L. Wang, and M. K. Miller, Vacancy-controlled ultrastable nanoclusters in nanostructured ferritic alloys, Scientific Reports，2015，5（10600）

50. 28 Z. W. Zhang*, W. H. Wang, Y. Zou, I. Baker, Y. F. Liang, Control of grain boundary character distribution and its effects on the deformation of Fe-6.5 wt. % Si, J  Alloys Comp., Volume 639, 5 August 2015, Pages 40–44

51. 27 Yun Zou, Zhongwu Zhang*, Suyang Liu, Dan Chen, Guixiang Wang, Yangyang Wang, Milin Zhang, Yuhan Chen Ultrasonic assisted electroless Ni-P plating on Mg-Li alloy, J. Electrochem. Soc. ( 2015), 162: C64-C70

52. 26 R. Wu, Y. Yan, G. Wang, L. E. Murr, W. Han, Z. Zhang and M. Zhang, Recent progress in magnesium–lithium alloys, International Materials Reviews (2015), 60: 65-100

53. 25 Z. B. Jiao, J. H. Luan, Z. W. Zhang, M. K. Miller, C. T. Liu, High strength steels hardened mainly by nanoscale NiAl precipitates, Scripta Mater. (2014),87: 45-48

54. 24 Qun Zhang, Bin Liu, Zhongyi Niu, Zhongwu Zhang, Zhe Leng, Grain refinement and mechanical properties of Mg-5Li-3Al alloy inoculated by Al-5Ti-1B master alloy, Mater. Sci. Eng. A (2014), 619:152-157

55. 23 Jia-Lin Cheng, Guang Chen,  Zhong-Wu Zhang, Zhang-Zhong Wang, Zai-You Wang, Xiao-Quan Li, Oxygen segregation in the Zr-based bulk metallic glasses, Intermetallics (2014),49, 149-153

56. 22 Z.B. Jiao, J.H. Luan, Z.W. Zhang, M.K. Miller, W.B. Ma, C.T. Liu, Synergistic effects of Cu and Ni on nanoscale precipitation and mechanical properties of high-strength steels, Acta Materialia (2013), Volume 61, Issue 16, September 2013, Pages 5996–6005

57. 21 Z. W. Zhang, C. T. Liu, M. K. Miller, X.-L. Wang, Y. R. Wen, T. Fujita, A. Hirata, M. W. Chen, G. Chen, B. A. Chin, A nanoscale co-precipitation approach for property enhancement of Fe-base alloys, Scientific Reports, 3, 1327; DOI:10.1038/srep01327, 2013 

58. 20 Y. R. Wen, A. Hirata, Z. W. Zhang, T. Fujita, C. T. Liu, J.H. Jiang, M. W. Chen*, Microstructure characterization of Cu-rich nanoprecipitates in a Fe-2.5 Cu-1.5 Mn-4.0 Ni-1.0 Al multicomponent ferritic alloy, Acta Materialia, 61(6), 2013: 2133-2147.

59. 19 W. Shen, S. Q. Li, M. K. Park, Z. W. Zhang, Z. Y. Cheng, V. A. Petrenko, B. A. Chin. Blocking Agent Optimization for Nonspecific Binding on Phage Based Magnetoelastic Biosensors, Journal of The Electrochemical Society, 159 (2012) ,10: B1-B6.

60. 18 Z. W. Zhang, C. T. Liu, X.-L. Wang, M. K. Miller, D. Ma, G, Chen, J. R. Williams, B. A. Chin，Effects of Proton irradiation on precipitation of nanoclusters in ferritic steel containing fcc alloying additions, Acta Materialia, 60 (2012): 3034–3046.

61. 17 Z. W. Zhang, C. T. Liu, Y. R. Wen, S. Guo, G. Chen, M. W. Chen, Bryan A. Chin, Influence of aging and thermomechanical treatments on the mechanical properties of a nano-cluster strengthened ferritic steel, Metal. Mater. Transaction A, 43A(2012): 351-359.

62. 16 X. Cao, W. Shen, L. G. Yu, Y. L. Wang, J. Y. Yang, Z.W. Zhang. Illumination invariant extraction for face recognition using neighboring wavelet coefficients, Patten Recognition, 45 (2012) :1299-1305.

63. 15 Z. W. Zhang, C. T. Liu, X.-L. Wang, K. littrell, M. K. Miller, K. An, B. A. Chin，From embryos to precipitates: A study of nucleation and growth in a multicomponent ferritic steel，Physical Review B, 84(2011): 174114.

64. 14 Z. W. Zhang, C. T. Liu, S. Guo, J. L. Cheng, G. Chen, Takeshi Fujita, M. W. Chen, Yip-Wah Chung, Semyon Vaynman, Morris E. Fine, Bryan. A. Chin, Boron effects on the ductility of a nano-cluster-strengthened ferritic steel, Materials Science and Engineering, A528(2011): 855-859 .

65. 13 Y. B. Yan, Z. W. Zhang, W. Shen, and B. A. Chin. "Materials Science: General-Explosive Bonding of Dissimilar Alloys of Mg and Al." Transactions of the American Nuclear Society 104 (2011): 239.

66. 12 Suiqiong Li, Martin L. Grossbeck, Zhongwu Zhang, Wen Shen and Bryan A. Chin, The Effect of Helium on Welding of Irradiated Materials, Welding Journal, 90(2011):19s-26s.

67. 11 Wen Shen, Zhongwu Zhang, Shin Horikawa, Anxue Zhang, Junpin Teng, Leslie C. Mathison, and Bryan A. Chin. Time domain characterization of magnetoelastic sensors: A pulse method for resonance frequency determination. Review of Scientific Instruments, 81 (2010): 084702.

68. 10 Y B Yan, Z. W. Zhang, W Shen, J H Wang, L K Zhang, B A Chin. Microstructure and properties of Magnesium AZ31B – Aluminum 7075 explosively welded composite plate. Materials Science and Engineering, A 527 (2010): 2241–2245.

69. 9 Zhongwu Zhang, G Chen, H Bei, F Ye, G L Chen, C T Liu. Directional recrystallization and microstructures of an Fe-6.5wt%Si alloy. Journal of materials research. 24(2009): 2654-2660.

70. 8 Z. W. Zhang, G Chen, H Bei, F Ye, G L Chen, C T Liu. Improvement of magnetic properties of Fe-6.5wt%Si by directional recrystallization. Applied Physics Letters, 93(2008):191908.

71. 7 Z. W. Zhang, G Chen, G L Chen. Dynamics and mechanism of columnar grain growth of pure iron under directional annealing. Acta Materialia, 55(2007): 5988-5998.

72. 6 Z. W. Zhang, G L Chen, G Chen. The Effect of Drawing Velocity and Phase Transformation on the Structure of Directionally Annealed Commercial Pure Iron. Materials Science and Engineering, A434(2006): 58-62.

73. 5 Zhong-Wu Zhang, Guo-Liang Chen, Guang Chen. The effect of crystallographic texture on columnar grain growth in commercial pure iron during directional annealing. Materials Science and Engineering, A435-436(2006): 573-578.

74. 4 Z. W. Zhang, G. L. Chen, G. Chen. Microstructural Evolution of Commercial Pure Iron During Directional Annealing. Materials Science and Engineering, A422(2006): 241-251.

75. 3 Z.W. Zhang, G.L. Chen, G. Chen, J.E. Zhou. Amorphization and Thermal Stability of Mechanically Alloyed W-Ni-Fe. Materials Science and Engineering, A417 (2006): 34-39.

76. 2 Zhong-Wu Zhang, Jing-En Zhou, Sheng-Qi Xi, Guang Ran, Peng-Liang Li. Phase Transformation and Thermal Stability of Mechanically Alloyed W-Ni-Fe Composite Materials. Materials Science and Engineering, A379 (2004): 148-153.

77. 1 Zhong-Wu Zhang, Jing-En Zhou, Sheng-Qi Xi, Guang Ran, Peng-Liang Li, Wen-Xing Zhang. Formation of Crystalline and Amorphous solid solutions of W–Ni–Fe Powder during Mechanical Alloying. Journal of Alloys and Compounds, 370 (2004): 186–191.