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创造、创新、创业

Creation, innovation and Entrepreneurship

正高级专业技术职称

梅青松

分类:院内新闻 作者: 来源: 时间:2021-03-03 访问量:

梅青松

个人基本情况

学历:博士研究生

职称:教授,博士生导师

电子邮件:qsmei@whu.edu.cn

学习及工作经历

1997年毕业于哈尔滨理工大学获金属材料热处理学士学位,2000年毕业于武汉水利电力大学获热能动力工程硕士学位,2005年毕业于中国科学院金属研究所,获材料学博士学位,毕业后先后任中国科学院金属研究所助理研究员(2005.6)、副研究员(2006.9),日本国立材料研究所ICYS研究员(2008.12),20123月任武汉大学教授。

主要研究方向

1、纳米金属复合材料

2、形变制造

3、先进金属材料组织与性能设计

4、智能驱动与能源转化材料

代表性论文与专著

  • Zhang, B. B.; Tang, Y. G.; Mei, Q. S.; Li, X. Y.; Lu, K.; Inhibiting creep in nanograined alloys with stable grain boundary networks, Science, 2022, 378(6620): 659-663.

  • Mei, X. M.; Mei, Q. S.; Li, J. Y.; Li, C. L.; Wan, L.; Chen, F.; Chen, Z. H.; Xu, T.; Wang, Y. C.; Tan, Y. Y.; Solid-state alloying of Al-Mg alloys by accumulative roll-bonding: Microstructure and properties, Journal of Materials Science & Technology, 2022, 125: 238-251.

  • Chen, F.; Mei, Q. S.; Li, J. Y.; Li, C. L.; Wan, L.; Zhang, G. D.; Mei, X. M.; Chen, Z.H.; Xu, T.; Wang, Y. C.; Fabrication of graphene/copper nanocomposites via in-situ delamination of graphite in copper by accumulative roll-compositing, Composites Part B: Engineering, 2021,216: 0-108850.

  • Ma, Y.; Mei, Q. S.; Li, C. L.; Wan, L.; Li, J. Y.; Chen, F.; Mei, X. M.; Chen, Z. H.; Microstructure and mechanical behavior of Al-TiAl3 composites containing high content uniform dispersion of TiAl3 particles, Materials Science and Engineering A, 2020, 786: 0-139435.

  • Zhang, G. P., Mei, Q. S., Chen, F., Ma, Y., Mei, X. M., Li, J. Y., Ruan, X. F., Wan, L., Production of a high strength Al/(TiAl3+Al2O3) composite from an Al-TiO2 system by accumulative rollbonding and spark plasma sintering. Mater. Sci. Eng. A, 2019, 752: 192-198.

  • Li, C. L.; Mei, Q. S.; Li, J. Y.; Chen, F.; Ma, Y.; Mei, X.M.; Hall-Petch relations and strengthening of Al-ZnO composites in view of grain size relative to interparticle spacing, Scripta Materialia, 2018, 153: 27-30.

  • Yao, G. C., Li, J. Y., Li, C. L., Ma, Y., Chen, F., Liu, M., Mei, Q. S., Cu/C composites with a good combination of hardness and electrical conductivity fabricated from Cu and graphite by accumulative roll-bonding, Mater. Des., 2016, 110: 124-129.

  • Liu. M., Li. J. Y., Ma. Y., Yuan. T. Y., Mei. Q. S., Surface nanocrystallization and property of Ti6Al4V alloy induced by high pressure surface rolling, Surf. Coat. Tech., 2016, 289: 94-100.

  • Li, Y., Li, J. Y., Liu, M., Ren, Y. Y., Chen, F., Yao, G. C. Mei, Q. S., Evolution of microstructure and property of NiTi alloy induced by cold rolling, J. All. Comp., 2015, 653: 156-161.

  • Mei, Q. S, Tsuchiya, K., Gao, H.Different stages in the continuous microstructure evolution in Copper deformed to ultrahigh strains, Scripta Materialia, 67,1003-1006, 2012.

  • Mei, Q. S., Zhang, L., Tsuchiya. K., Gao, H., Ohmura, T., Tsuzaki, K.Grain size dependence of elastic modulus in nanostructured NiTi, Scripta Materialia 42,977-980, 2010.

  • Mei, Q. S.Lu. K.Melting and superheating of crystalline metals: from bulk to nanocrystals. Progress in Materials Science, 52,1175-1262, 2007.

  • Mei. Q. S., Wang, S. C., Cong, H. T., Jin, Z. H., Lu, K., Pressure-induced superheating of Al nanoparticles encapsulated in Al2O3 shells without epitaxial Interface. Acta Materialia, 53,2005,1059-1066.

  • 卢柯, 梅青松,《材料相变》 (第六章),主编:徐祖耀,高等教育出版社,2013.