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个人简介

个人经历 1968年12月~1978年10月:河北邯郸钢铁厂技术员、工段长、分厂生产调度; 1978年10月~1981年12月:原中南工业大学材料系攻读硕士研究生; 1981年12月~现在:原中南工业大学、中南大学讲师、副教授、教授、博士生导师。 其中: 1987年6月~1989年7月:日本大阪大学工学部客座研究员; 1994年1月~1994年3月:俄罗斯轻合金研究院合作科研; 1996年3月~1998年9月:日本东京工业大学工学部高级访问学者。

研究领域

铝合金耐疲劳特征微结构的形成与损伤机理研究 新型铝锂合金的合金化理论与组织调控研究 应力时效诱发铝合金中强化相析出的基础研究 铝合金相变过程的计算机模拟研究

近期论文

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1.Biping Huang, Ziqiao Zheng.Independent and combined roles of trace Mg and Ag additions in properties, precipitation process nd precipitation kinetics of Al-Cu-Li-(Mg)-(Ag)-Zr-Ti alloys, Acta Mater. Vol.46(12),1998.P4381 2.B.P.Huang,Z.Q.Zheng.Effects of Li content on precipitation in Al-Cu-Li-Mg-Ag-Zr alloys, Scripta Mat., Vol.38(3),1998,P357 3.B.P.Huang,Z.Q.Zheng.Precipitation kinetics of an Al-4.01Cu-1.11Li-0.39Mg-0.19Zr -0.11Ti alloy, Scripta Materialia, Vol.38(4), 1998, P611 4.Zhiguo Chen, Ziqiao Zheng. Microstructural evolution and aging behavior of the low Cu:Mg ratio Al-Cu-Mg alloys containing Scandium and Lithium. Scripta Materialia, 50(7) ,2004,P1067 5.Z.Q.Zheng,M.G.Liu,X.Z.Liu,D.F.Yin. Microstructure and tensile properties of the bismuth containing 2091 Al-Li alloy, Scripta Metall, Vol.30(1),1994,P31 6.Zhiguo Chen, Ziqiao Zheng, Zhixiu Wang. Effect of Lithium on the aging characteristics and microstructure of Al-4Mg-1.5Cu-0.4Ag alloys. J.Mater.Science, 39(6),2004,P2253 7.Z.G.Chen, Z.Q.Zheng.The ageing characteristic of the Al-5Mg-1.61Li-0.88Ag -0.13Zr alloy, J.Mater. Sci. Letters, Vol.15,1996,P1255 8.Z.Q.Zheng, et.al. The microstructure and fracture toughness of an Al-Li-Cu-Mg-Zr alloy containing minor Lanthanum additions, Mater. Sci. Letters, Vol.13, 1994, P946 9.Z.Q.Zheng,S.Q.Liang,H.Xu,C.Tan,D.F.Yin.Effect of 0.5% silver on the age hardening behavior of an Al-Li-Cu-Mg-Zr alloy, Mater. Sci. Letters, Vol.12, 1993,P1111 10.Z.Q.Zheng,C.Y.Tan, et.al. Effect of preaging on precipitation of the S phase in 8090 and 2091 type Al-Li alloys, Mater.Letters, Vol.15(4),1992,P309 11.Z.Q.Zheng,X.Z.Chen,Z.G.Chen,S.C.Li,X.Y.Wei.Trace Element Effects on Microstructure and Mechanical Properties in Al-Cu-Li Alloy After Thermal Exposure. Materials Science Forum,2006,v519-521,p1931-1936 12.Zheng Z Q, Cai B, Zhai T, et al. The behavior of fatigue crack initiation and propagation in AA2524-T34 alloy[J]. Materials Science and Engineering: A, 2011, 528(4): 2017-2022. 13.Liao Z, Li S, Zheng Z, et al. The effect of Ge addition on Al–3.5 Cu–0.4 Mg (wt.%) alloy[J]. Scripta Materialia, 2012, 66(7): 447-450. 14.Zhang H, Zheng Z, Lin Y, et al. Effects of Ag addition on the microstructure and thermal stability of 6156 alloy[J]. Journal of Materials Science, 2012, 47(9): 4101-4109. 15.Lin Y, Zheng Z, Li S, et al. Microstructures and properties of 2099 Al-Li alloy[J]. Materials Characterization, 2013, 84: 88-99. 16.Zheng Z Q, Liu W Q, Liao Z Q, et al. Solute clustering and solute nanostructures in an Al–3.5 Cu–0.4 Mg–0.2 Ge alloy[J]. Acta Materialia, 2013, 61(10): 3724-3734. 17.Ou L, Nie Y, Zheng Z. Strain compensation of the constitutive equation for high temperature flow stress of a Al-Cu-Li alloy[J]. Journal of materials engineering and performance, 2014, 23(1): 25-30. 18.Yuan M, Zheng Z. Effects of Zn on the microstructures and mechanical properties of Mg–3Sm–0.5 Gd–xZn–0.5 Zr (x= 0, 0.3 and 0.6) alloy[J]. Journal of Alloys and Compounds, 2014, 590: 355-361. 19.Jia M, Zheng Z, Gong Z. Microstructure evolution of the 1469 Al–Cu–Li–Sc alloy during homogenization[J]. Journal of Alloys and Compounds, 2014, 614: 131-139.

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