中国物理B ›› 2009, Vol. 18 ›› Issue (10): 4370-4379.doi: 10.1088/1674-1056/18/10/046
郑鸥, 马家艳, 王建波, 周嘉萍, 金磊, 赵东山, 王仁卉
Zheng Ou(郑鸥), Ma Jia-Yan(马家艳), Wang Jian-Bo(王建波)†, Zhou Jia-Ping(周嘉萍), Jin Lei(金磊), Zhao Dong-Shan (赵东山)‡, and Wang Ren-Hui(王仁卉)
摘要: Knowledge of the microscopic structure, including three-dimensional (3-D) size and orientation of the precipitates, is essential to fully understand the mechanical properties of the magnesium alloys and designing the alloys with better performance. Analytical TEM with high spatial resolution offers the simultaneous measurements of 3-D size, structure, orientation, composition of the precipitates from one typical sample along an established crystallographic axis. Besides popular Burgers orientation relationship (OR), other ORs such as Pitsch--Schrader OR, Crawley OR, Potter OR and a new OR with the form of [0001]α 1.0° from [311]γ and (11\bar 20)α 2.0° from (03\bar 3)γ between the magnesium matrix and the precipitate γ -Mg17Al12 are identified by TEM imaging and diffraction techniques. As a case study, the thicknesses of the individual precipitates with Burgers OR are further measured to be 100--200~nm through both electron energy-loss spectroscopy and x-ray energy dispersive spectroscopy combining differential x-ray absorption and extrapolation, which are in agreement with the overall 3-D size statistic distribution results obtained through analysing various samples along various directions. Furthermore, the fabricated wedge-shape structure provides a platform on which to study the dependence of the interfacial strain on the variation of the thickness.
中图分类号: (Alloys )