Structure of A–C Type Intervariant Interface in Nonmodulated Martensite in a Ni–Mn–Ga Alloy

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• 作者：S. Ouyang ; Y.Q. Yang ; M. Han ; Z.H. Xia ; B. Huang ; X. Luo ; G.M. Zhao ; Y.X. Chen
• 刊名：ACS Applied Materials & Interfaces
• 出版年：2016
• 出版时间：July 6, 2016
• 年：2016
• 卷：8
• 期：26
• 页码：16985-16996
• 全文大小：867K
• 年卷期：0
• ISSN：1944-8252

文摘

The structure of A–C type intervariant interface in nonmodulated martensite in the Ni₅₄Mn₂₅Ga₂₁ alloy was studied using high resolution transmission electron microscopy. The A–C interface is between the martensitic variants A and C, each of which has a nanoscale substructure of twin-related lamellae. According to their different thicknesses, the nanoscale lamellae in each variant can be classified into major and minor lamellae. It is the boundaries between these lamellae in different variants that constitute the A–C interface, which is thus composed of major–major, minor–minor, and major–minor lamellar boundaries. The volume fraction of the minor lamellae, λ, plays an important role in the structure of A–C interfaces. For major–major and minor–minor lamellar boundaries, they are symmetrical or asymmetrical tilt boundaries; for major–minor boundary, as λ increases, it changes from a symmetrical tilt boundary to two asymmetrical microfacets. Moreover, both lattice and misfit dislocations were observed in the A–C interfaces. On the basis of experimental observations and dislocation theory, we explain how different morphologies of the A–C interface are formed and describe the formation process of the A–C interfaces from λ ≈ 0 to λ ≈ 0.5 in terms of dislocation–boundary interaction, and we infer that low density of interfacial dislocations would lead to high mobility of the A–C interface.