鄭興偉 教授
鄭興偉,1981年11月出生,力學學科教授。2012年博士畢業于上海交通大學,博士期間在美國通用汽車研發總部(GM Research and Development center)聯合培養一年。2014年獲得上海市科技啟明星。長期從事面向航空航天高性能輕質材料(鎂合金、鋁合金及纖維金屬超混雜層板)開發及其力學行為研究、結構功能一體化高熵陶瓷開發。主持國家自然基金面上項目和上海市科技啟明星等省部級以上科研項目9項;在Nano Lett,Scripta Mater,MD,MSEA等國際知名期刊發表SCI論文50余篇;獲得國家海洋工程技術一等獎、上海市科技啟明星等省部級或行業科研成果獎4項。
研究方向:
1、 面向航空航天高性能輕質材料(鎂合金、鋁合金及纖維金屬超混雜層板)開發及其力學行為研究
2、 結構功能一體化高熵陶瓷開發與設計
榮譽及獲獎情況:
1、 2023年太倉市科技領軍人才(個人)
2、 2018年海洋工程科學技術獎一等獎(第六)
3、 2014年獲得上海市青年科技啟明星(個人)
近年來承擔的主要科研項目:
1、 中央軍委科技委:No:2020-JCJQ-JJ-316,蠕變時效成形纖維-稀土鎂合金超混雜層板研究,執行期限:2020.08-2023.08,200萬;
2、 國家自然基金面上項目:No. 51775329,復雜曲面纖維-稀土鎂合金超混雜層板蠕變時效成形機理研究,執行期限:2018.01-2021.12,61萬;
3、 橫向課題, NO: 109230840, 新型結構功能一體化高熵陶瓷應用技術研究與開發, 執行期限:2023.12-2025.12, 90萬元;
4、 中央部署高校自由探索項目, No:2232021D-27, 玻璃纖維稀土鎂合金超混雜層板制備成形一體化機理研究, 執行期限:2021.01-2023.12, 總經費10萬元;
5、 上海市啟明星人才項目:NO.14QB1401400,新型纖維鋁鋰合金層板制備-時效成形一體化技術研究,執行期限:2014.6-2016.6,總經費40萬;
6、 上飛公司創新基金:NO.SAMC13-JS-15-019,民用飛機平尾壁板時效成形建模仿真與參數優化,執行期限:2013.1-2013.12,總經費30萬;
7、 上海市經委產學研:NO.15XI-1-15,大型客機復合材料Invar鋼模具制造關鍵技術研究及產業化應用,執行期限:2015.1-2016.12,總經費100萬;
8、 國家工信部:NO.821203-1,民用飛機鋁鋰合金機身結構制造技術研究,執行期限:2012.5-2014.6,300萬;
9、 國家工信部:NO.821302-1,民用飛機新型輕質結構試驗件加工工藝研究, 執行期限:2012.12-2014.6,143萬。
近年來發表的代表性論著、專利:
論文(僅列第一作者和/或通訊作者的SCI檢索論文, 標注*表示通訊作者)
1. Jiahua Zhang, Xingwei Zheng(*), Ji-Xuan Liu et al, Tribological and wear-resistance behaviors of single-phase (Dy0.2Ho0.2Er0.2Tm0.2Lu0.2)B12 high-entropy ceramic, Journal of the European Ceramic Society, 44(2024)3664-3674.
2. Jian Cui, Xingwei Zheng(#), et al, coexistence of superhardness and metal-like electrical conductivity in high-entropy dodecaboride Composite with Atomic-Scale Interlocks,Nano Letter. 2023, 23, 9319-9325.
3. Xingwei zheng, Jian Cui, Chao Gu, et al, Super high-entropy dodecaboride with high conductivity. Scripta Materialia, 220(2022)114938.
4. Xingwei Zheng, Peng Luo, Zhilin Han, Hot deformation behavior and processing map of high-strength Mg-2.5Nd-0.2Zn-1Zr alloy, Journal of Materials Engineering and Performance 31(2022)1222-1230.
5. Xingwei Zheng, Zong Zhao, Zhenhua Chu et al, Effect of surface treatment methods on the interfacial behavior of fiber metal laminate based on WE43 magnesium alloy, International Journal of Adhesion and Adhesives, 110(2021)102957
6. Xingwei Zheng, Yongcheng Liang, et al, The effect of laser shock peening on the microstructure and high-temperature mechanical properties of AZ31 alloy, Journal of Materials Engineering and Performance, 30(2021)4282-4290
7. Zhilin Han; Yankai Gu; Yongcheng Liang; Xingwei Zheng(*), BEM-based algorithm for composite materials with Gurtin-Murdoch interfaces:Error analysis and effective parameters, Mechanics of Advanced Materials and Structures, 16(2022)2358-2370.
8. Xingwei Zheng, Peng Luo, Guanquan Yue et al, Analysis of microstructure and high-temperature tensile properties of 2060 Al-Li Alloy strengthened by laser shock peeing, Journal of alloys and compounds.86(2020)158539.
9. Chu Zhenhua, Zhou Yuyun, Zheng Xingwei(*), et al, Tribological and Corrosive Mechanism of Fe-based Metallic Glassy Composite Coatings Sprayed by Plasma Spraying. Rare Metal Materials and Engineering,49(2020). 2020, 49(9): 2978-2982.
10. Xingwei Zheng , Xin Zhuang ,Yanhua Lei , et al, Corrosion Behavior of the Ti–6Al–4V Alloy in Sulfate-Reducing Bacteria Solution, Coatings, 2020, 10(1), 24
11. Zhenhua Chu, Fushuang Wei, Xingwei Zheng(*), et al, Microstructure and properties of TiN/Fe-based amorphous composite coatings fabricated by reactive plasma spraying. Journal of alloys and compounds, 785(2019)206-213.
12. Xingwei zheng et al, Plastic flow behavior and microstructure characteristics of light-weight 2060 Al-Li alloy. Materials Science and Engineering. A, 736(2018)465-471.
13. Xingwei zheng et al, Formability, mechanical and corrosive properties of Mg-Nd- Zn-Zr magnesium alloy seamless tubes. Materials and Design, 31(2010) 1417-1422.
14. Xingwei zheng et al,Forgeability and die-forging forming of direct chilling cast Mg-Nd-Zn-Zr magnesium alloy. Materials Science and Engineering. A, 527(2010)3690-3694.
15. Xingwei zheng et al, Plastic flow behavior of a high-strength magnesium alloy NZ30K. Materials Science and Engineering. A, 532(2012)616-622.
16. Xingwei zheng et al, Microstructure and mechanical properties of Mg-4Al-4Nd-0.5Zn-0.3Mn Alloy. Materials Science and Engineering. A, 515(2009) 98-101.
17. Xingwei zheng et al, Directional Solidification and Microsegregation in a Magnesium-Aluminum -Calcium alloy. Metallurgical and Materials Transactions A, 9(2012) 3239~3248.
18. Xingwei zheng et al,The effect of casting speed on microstructure, micro-segregation and mechanical properties of high-strength Mg-Nd-Zn-Zr alloy. Journal of Materials Engineering and Performance, 28(2019)1753-1761.
19. Xingwei zheng et al,Microstructure characteristic and mechanical properties of high strength Mg-Nd-Zn-Zr alloy seamless tube produced by integrated extrusion. Journal of Materials Engineering and Performance, 27(2018) 794-802.
20. Xingwei zheng et al, Effect of Direct Chill Casting Process Parameters on the Microstructure and Macrosegregation of Mg-Al-Zn Ingot. Materials Transaction. 58(2017)1197-1202.
21. Xingwei zheng et al, Effect of process parameters on structure and macrosegregation upon direct-chill casting of a Mg-Nd-Zn-Zr alloy. Materials Science and technology, 27(2011)275-281.
22. Xingwei zheng et al, The microstructure and mechanical properties of NZ30K alloy cast by semi-continuous and sand mould casting. China Foundry, 8(2012)41-46.
23. Xingwei zheng et al, Microstructure and mechanical properties of Mg-Nd-Zn-Zr billet prepared by direct chill casting. Journal of magnesium and alloys, 6(2018)95-99.
著作
1、 鄭興偉、褚振華;輕質耐腐蝕稀土鎂合金大無縫管材制備技術研究,吉林大學出版社,2019
專利
1. 鄭興偉,梁擁成等,一種稀土十二硼化物顆粒增強鎂基復合材料及其制備方法,專利號:2023 1 0091982.9;
2. 鄭興偉,崔建等,一種高硬度高導電率的高熵陶瓷及其制備方法和應用,專利號:2020 1 1618971.4;
3. 鄭興偉,梁擁成等,一種高阻尼高強度Mg-Ca-Sn鎂合金及其制備方法,專利號:2020 1 0894871.8;
4. 崔建,鄭興偉等,一種彌散強化高熵十二硼化物基復合材料及其制備方法,專利號:2021 1 1405446.9;
5. 鄭興偉,褚振華等,一種可快速擠壓成形的鎂合金及其制備方法,專利號:201810332874.5;
6. 鄭興偉,褚振華等,一種耐熱高強變形鎂合金及其制備方法,專利號:201810332875.X;
主要學術兼職:
1、 力學學會會員
國際交流與合作:
1、 美國通用汽車研發中心
2、 密西根州立大學
3、 上海交通大學輕合金國家工程中心
聯系電話:021-67792083 E-MAIL:zhengxingwei@dhu.edu.cn
