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朱和国 Heguo Zhu

个人简介

男,1963.9生,江苏、丹阳人,工学博士,教授,博士生导师。

教育背景

2013/09-2013/12,澳大利亚昆士兰大学,合作研究

2000/03-2003/09,东南大学研究生院,工学博士
1995/09-1998/03
,东南大学研究生院,工学硕士
1992/09-1994/07
,东南大学经济管理学院,经济学学士
1985/09-1990/07
,武汉理工大学船舶机械工程系,工学学士

工作履历

2014/05-迄今       南京理工大学材料科学与工程学院,教授;

2005/05-2014/05 南京理工大学材料科学与工程学院,副教授;
1999/11-2005/05
 南京理工大学材料科学与工程学院,讲师;
1998/03-1999/11
 南京理工大学材料科学与工程学院,助教;

学术/社会兼职

国际期刊审稿人

1Composites Science and Technology

2Journal of Material Science

3Metallurgical and Materials Transactions

4Tribology Transaction

5Journal of Manufacture Science and Engineering

6Tribology Letters

7Advances in Materials Science and Engineering

 

8Steel and Composite Structures

研究领域/概况

 

1.研究领域:
1)内生型金属基复合材料
2)微波合成复合材料
3)纳米复合材料
2.主持在研纵向项目:
1)国家自然科学基金面上项目(51371098):自生内晶颗粒构建铝基复合材料分级结构及其增强机制研究,经费:80万(2014.1~2017.12)
2)国家自然科学基金面上项目(51571118):微波合成金属基复合材料反应机制及组织演变研究,经费:74.3万(2016.1~2019.12)
3)江苏省自然科学基金面上项目(BK20141308):Al-ZrO2-B2O3反应合成微纳复式颗粒增强铝基复合材料研究,经费:10万(2014.7~2017.7)
3.主持在研横向项目:略

 

奖励与荣誉

 

1)2012年“Metallurgical and materials transactions”优秀审稿人称号
2)2012年南京理工大学学生评教50强第18名
3)2013年南京理工大学科技工作先进个人

 

学术成果

1.期刊论文
1) Heguo Zhu, Bo Hua, Tao Cui, Jiewen Huang, Jianliang Li, Zonghan Xie. Microwave combustion synthesis of in situ Al2O3 and Al3Zr reinforced aluminum matrix composites. Materials Research Bulletin, 68: 283-288, 2015.
2) Heguo Zhu, Guanhong Guo, Tao Cui, Jiewen Huang, Jianliang Li, Zonghan Xie. In situ aluminum matrix composites fabricated from Al–Ni2O3 system through microwave synthesis. Materials Chemistry and Physics, 153: 333-337, 2015.
3) Heguo Zhu, Guanhong Guo, Tao Cui, Jiewen Huang, Jianliang Li, Zonghan Xie. Influences of carbon additions on reaction mechanisms and tensile properties of Al-based composites synthesized in-situby Al–SiO2 powder system. Materials Science and Engineering: A, 623( 19): 78-82, 2015.
4) Heguo Zhu, Kang Dong, Jiewen Huang, Jianliang Li, Gui Wang, Zonghan Xie. Reaction mechanism and mechanical properties of an aluminum-based composite fabricated in-situ from Al-SiO2 system,Materials Chemistry and Physics,145:334-341,2014
5) Heguo Zhu, Bo Hua, Jiewen Huang, Jianliang Li, Gui Wang, Zonghan Xie. Dry sliding wear behavior of TiC/Fe composites fabricated by exothermic dispersion of Fe–Ti–C powders. Tribology materials, surface and interface, 8(3) :165-171, 2014
6) Heguo Zhu, Yaling Jiang, Jinzhu Song, Jianliang Li, Paul Munroe, Zonghan Xie. In-situ synthesis and characterization of a hierarchically structured Al2O3/Al3Ti composite. Journal of Materials Science, 48: 929-935, 2013.
7)Heguo Zhu, Kang Dong, Yinqun Yao, Jinzhu Song, Jianliang Li, Zonghan Xie. Reaction mechanisms of the TiC/Fe composite fabricated by exothermic dispersion from Fe-Ti-C element system. Powder Technology, 246: 456-461,2013 Volume 246, September 2013, Pages 456-461
8) Heguo Zhu, Yalin Jiang, Yinqun Yao, Jinzhu Song, Jianliang Li, Zonghan Xie. Reaction pathways, activation energies and mechanical properties of hybrid composites synthesized in-situ from Al-TiO2-C powder mixtures. Materials Chemistry and Physics, 137: 532-542, 2012. Volume 137, Issue 2, 14 December 2012, Pages 532-542
9) Heguo Zhu, Cuicui Jar, Jianliang Li, Jun Zhao, Jinzhu Song, Yinqun Yao, Zonghan Xie. Microstructure and high temperature wear of the aluminum matrix composites fabricated by reaction from Al–ZrO2–B elemental powders, Powder Technology, 217: 401-408, 2012. Volume 217, February 2012, Pages 401-408
10) Heguo Zhu,Cuicui Jar,Jinzhu Song,Jun Zhao,Jianliang Li,Zonghan Xie. High temperature dry sliding friction and wear behavior of aluminum matrix composites (Al3Zr+a-Al2O3)/Al, Tribology International, 48: 78-86, 2012. Volume 48, April 2012, Pages 78-86
11) Heguo Zhu, Yanqun Yao, Jianliang Li, Shi Chen, Jun Zhao, Hengzhi Wang. Study on the reaction mechanism and mechanical properties of aluminum matrix composites fabricated in an Al–ZrO2–B system, Materials Chemistry and Physics, 127: 179–184, 2011. Volume 127, Issues 1–2, 16 May 2011, Pages 179-184
12) Heguo Zhu, Yinglu Ai, Jianliang Li, Jing Min, Da Chu, Jun Zhao, Jie Chen. Advanced Powder TechnologyIn situ fabrication of a-Al2O3 and Ni2Al3 reinforced aluminum matrix composites in an Al–Ni2O3 system. Advanced Powder Technology, 22: 629–633, 2011. Volume 22, Issue 5, September 2011, Pages 629-633
13) Heguo Zhu, Jing Min, Jianliang Li, Jie Chen, Jun Zhao, Yanqun Yao.Influence of B/ZrO2 molar ratios on the ambient temperature wear properties of composites made by an Al-ZrO2-B system. Wear, 271: 635– 639, 2011. Wear 271 (2011) 635–639
14) Heguo Zhu, Jing Min, Jianliang Li, Yinglu Ai, Liangqi Ge, Hengzhi Wang. In situ fabrication of (α-Al2O3 + Al3Zr)/Al composites in an Al–ZrO2 system. Composites Science and Technology, 70(15): 2183-2189, 2010. Volume 70, Issue 15, 15 December 2010, Pages 2183-2189
15) Heguo Zhu, Jing Min, Yinglu Ai, Da Chu, Huan Wang, Hengzhi Wang. The reaction mechanism and mechanical properties of the composites fabricated in an Al-ZrO2-C system. Materials Science and Engineering A, 527: 6178-6183, 2010. Volume 527, Issue 23, 15 September 2010, Pages 6178-6183
16) Heguo Zhu, Yinlu Ai, Jin Min, Qiang Wu and Hengzhi Wang. Dry sliding wear behavior of Al-based composites fabricated by exothermic dispersion reaction in an Al-ZrO2-C system. Wear, 628: 1465-1471, 2010. Wear 268 (2010) 1465–1471
17) Heguo Zhu, Hengzhi Wang, Liangqi Ge, Wenjuan Xu. Study on the microstructure and mechanical properties of composites fabricated by the reaction method in an Al-TiO2-B2O3 system. Materials science and engineering A, 2008, 478: 87-92.
18) Heguo Zhu, Hengzhi Wang, Liangqi Ge. Wear Properties of the Composites Fabricated by Exothermic Dispersion Reaction Synthesis in an Al-TiO2-B2O3 System. Wear, 2008, 264: 967-972.
2. 主要教材:
1)朱和国,王恒志 编著。国家“十一五”规划教材,《材料科学研究与测试方法》(第1版),东南大学出版社,53万字,2008(本人完成48万字)
2)朱和国,杜宇雷,赵军 编著。《材料现代分析技术》,国防工业出版社,52.6万字,2012(本人完成48万字)
3)朱和国,王新龙 编著。国家“十一五”规划教材,《材料科学研究与测试方法》(第2版),东南大学出版社,54万字,2013(本人完成51万字)
4)朱和国,张爱文 编著。《复合材料原理》,国防工业出版社,40.2万字,2013(本人完成36万字)
5)参编教材《工程材料及成形工艺》,国防工业出版社,41万字,2011(本人完成10万字)。
6)参编教材《新材料概论》,国防工业出版社,40万字,2013(本人完成4万字)。
3. 主要论著
朱和国 独著。《内生型铝基复合材料的反应机制与性能》,2013,国防工业出版社。28万字。
4.授权专利:
1) 一种微波加热真空反应装置 ZL2015 2 0120550.7
2) 一种微纳米内晶复相颗粒体及其热爆反应合成法 ZL201210506037.2
3) 微波加热与传统加热功能互换真空炉 ZL200820186855.8