研究方向
金属纳微晶材料理论;
金属纳米晶结构材料(凝固过程获得);
金属纳微晶材料铸造新技术;
金属纳微晶材料锻造、轧制新技术;
远离平衡条件下非平衡热力学
教育经历
1991.4-1994.3 哈尔滨工业大学金属材料及工艺系 金属材料及工艺 博士
1988.9-1991.3 哈尔滨工业大学金属材料及工艺系 金属材料及工艺 硕士
1984.9-1988.7 哈尔滨工业大学金属材料及工艺系 金属材料及工艺 学士
工作经历
1996.9至今 北京科技大学材料科学与工程学院 材料加工 教授
1994.9-1996.9 北京科技大学材料科学与工程学院 材料加工 副教授
2008.9-2009.9 加拿大麦吉尔大学 材料科学与工程 高级访问学者
1994.9-1996.9 北京科技大学冶金学科博士后流动站工作 铸造 博士后
荣誉
xxx项目首席科学家
教育部xxx项目评审专家
教育部xxx人才项目评审专家
xxx预研项目评审专家
北京市科技新星
江苏省“双创”人才
奖励
原位纳米增强增韧金属材料的理论及关键技术,中国机械工业科学技术发明一等奖,2019
原位纳米增强增韧金属材料的研究及应用,中国产学研合作创新成果二等奖,2018
著作
1、非平衡凝固理论技术
机械工业出版社,2011年5月, 王自东
2、金属凝固原理
冶金工业出版社,2010年12月, 胡汉起主编,主要写作者
3、材料成型理论基础
**工业出版社,2004年7月,刘雅政 , 任学平 , 王自东 , 黄继华
4、材料加工新技术新工艺
冶金工业出版社,2004年3月,主要写作者
论文
1. K.X. Chen, P.A. Korzhavyi, G. Demange, H. Zapolsky, Z.D. Wang, Morphological instability of iron-rich precipitates in Cu-Fe-Co alloys, Acta Mater. 163 (2019) 55-67.
2. Tao Wang, Xiaohua Chen, Xiang Luo, Han Jiang, Mingwen Chen, ZidongWang, Formation of Si nanoparticle in Al matrix for Al-7wt.%Si alloy during complex shear flow casting, Journal of Alloys and Compounds 739 (2018) 30-34.
3. Xiang Luo, Xiaohua Chen, Tao Wang, Shiwei Pan, Zidong Wang, Effect of morphologies of martensite–austenite constituents on impact toughness in intercritically reheated coarse-grained heat-affected zone of HSLA steel, Materials Science & Engineering A 710 (2018) 192–199.
4. Kaixuan Chen, Shiwei Pan, Yuzhi Zhu, Yongjian Cheng, Xiaohua Chen, Zidong Wang, In situ observations of crack propagation in as-cast Cu-1.5Fe-0.5Co (wt%) alloy, Materials Science & Engineering A 706 (2017) 211–216.
5. Mingwen Chen, Jingxian Mi, Zidong Wang, The effect of oscillatory flow on nucleation and grain growth in the undercooled melt, Journal of Crystal Growth 468 (2017) 32–37.
6. Xiang Luo, Yawei Niu, Xiaohua Chen, Hao Tang, Zidong Wang, High performance in base metal and CGHAZ for ferrite-pearlite steels, Journal of Materials Processing Technology 242 (2017) 101–109.
7. Kaixuan Chen, Xiaohua Chen, Ding Ding, Guodong Shi, Zidong Wang, Heterogeneous nucleation effect of in situ iron-rich nanoparticles on grain refinement of copper alloy. Materials Letters, 168(2016) 188-191.
8. Kaixuan Chen, Xiaohua Chen, Ding Ding, Guodong Shi, Zidong Wang, Formation mechanism of in-situ nanostructured grain in cast Cu-10Sn-2Zn-1.5Fe-0.5Co (wt.%) alloy, Materials and Design, 94 (2016) 338-344.
9. Kaixuan Chen, Xiaohua Chen, Ding Ding, Guodong Shi, Zidong Wang. Crystallographic features of iron-rich nanoparticles in cast Cu–10Sn–2Zn–1.5Fe–0.5Co alloy. Materials Characterization, 113 (2016) 34–42.
10. Kaixuan Chen, Hao Tang, Xiaohua Chen, Ding Ding, Guodong Shi, Zidong Wang. Morphological instability of spherical nano iron-rich crystal in copper melt. Materials Letters 172 (2016) 125–127.
11. Kaixuan Chen, Xiaohua Chen, Ding Ding, Zidong Wang, Effect of in-situ nanoparticle wall on inhibiting segregation of tin bronze alloy, Materials Letters, 175 (2016) 148–151.
12. Kaixuan Chen, Shiwei Pan, Yuzhi Zhu, Yongjian Cheng, Xiaohua Chen, Zidong Wang, In situ observations of crack propagation in as-cast Cu-1.5Fe-0.5Co (wt. %) alloy, Mater. Sci. Eng. A., 706 (2017) 211-216.
13. Hao Tang, Xiaohua Chen, YaWe iNiu, Xiang Luo, Zidong Wang, Mingwen Chen, Guodong Shi. Thermal stability characteristics of in situ nano-particles formed in metal melt. Materials Letters. 162(2016)261–264.
14. Guodong Shi, Xiaohua Chen, Hanjiang, Zhiyi Zhao, Zidong Wang, Tao Wang, Xiang Luo. Dendrite remelting of petal-shaped iron-rich nanoparticles in Cu-2 wt% Fe alloy at the nanoscale. Materials Letters, 166(2016)231-234.
15. Xiaohua Chen, Zidong Wang, Ding Ding, Hao Tang, Lili Qiu, Xiang Luo, Guodong, Shi. Strengthening and toughening strategies for tin bronze alloy through fabricating in-situ nanostructured grains, Materials and Design, 2015, 66: 60-66.
16. Guodong Shi, Xiaohua Chen, Han Jiang, Zidong Wang, Hao Tang, Yongquan Fan. Strengthening mechanisms of Fe nanoparticles for single crystal Cu-Fe alloy. Materials Science and Engineering A, 2015, 636:43-47.
17. Xiaohua Chen, Lili Qiu, Hao Tang, Xiang Luo, Longfei Zuo, Zidong Wang. Effect of nanoparticles formed in liquid melt on microstructure and mechanical property of high strength naval steel. Jorunal of Materials Processing Technology. 2015, 222: 224-233.
18. Xiaohua Chen, Xin Tang, Zidong Wang, Xidong Hui, Mo Li, Yongwei Wang. Manufacturing Process and microstructure of copper-coated aluminum wires. International Journal of Minerals Metallurgy and Materials. 2015, 22(2):190-196.
19. X. H. Chen, B. Hou, Z. D. Wang, Formation of an abnormal lamellar precipitate in Cu-Cr-Zr-Mg-Ce nanocomposite during solution treatments. Materials Research Innovation. 2015,19(s5)1333-1336.
20. Hao Tang, Xiaohua Chen, Xiang Luo, Mingwen Chen, Zidong Wang, Longfei Zuo. Heterogeneous nucleation effect of in sity nanoparticles on the metal-matrix microstructure. Materials Letter. 2014, 137: 455-459
21. Hao Tang, Xiaohua Chen, Mingwen Chen, Longfei Zuo, Bin Hou, Zidong Wang. Microstructure and mechanical property of in-situ nano-particle strengthened ferric steel by novel internal oxidation. Materials Science & Engineering A, 2014, 609: 293-299.
22. Mingwen Chen, Xiaojian Ji, Xiaohua Xu, Yahong Zheng, Ping Qian, Zidong Wang, The Effect of the Shear Flow on Particle Growth in the Undercooled Melt, Journal of Crystal Growth, 2014, vol.401, pp116–119, SCIMingwen Chen, Zidong Wang, Jian-Jun Xu, The effect of anisotropic surface tension on the interface evolution of a particle in the undercooled melt, Journal of Crystal Growth, 2014, vol.362, pp115–120.
23. Zidong Wang, X.W. Wang, Q.S. Wang, I Shih, J J Xu, Fabrication of a nanocomposite from in situ iron nanoparticle reinforced copper alloy, Nanotech. 20 (2009) 1-6.
科研项目
1. 973项目: xxx用xxx钢及xxx的重大基础研究(合同金额2781万);
2. 国家973项目“高性能金属材料的控制凝固与控制成形”的子课题(合同金额250万);
3. 国家863计划“高性能金属超细丝线材制备技术的开发及应用”(合同金额200万);
4. xxx项目多项:“十一五”xxx预研项目(合同金额250万)、“十二五”xxx预研项目(合同金额250万)、“十三五”xxx预研高性能xxx合金(合同金额200万)、“十三五”xxx预研xxx焊接技术(合同金额200万)、“十三五”xxx预研xxx钢材料(合同金额350万)
5. 北京市科技新星项目“自生纤维状Cr相增强铜电车线的应用”;
6. 北京市项目“集成电路用超细硅铝键合似技术开发与应用”;
7. 厂协项目“铁合金连铸技术的研究与开发”;
8. 铁道部重点项目高铁车轴钢的研制;
9. 高性能铝合金研究;
10.“厂协”项目:纳米减振钢、冶金脱氧过程中纳米氧化物的形成。
学术兼职
中国材料学会青工委理事
《科技中国》杂志专家委员会委员
