Stacking Disorder in Martensite of Cu-Zn Alloy
スポンサーリンク
概要
- 論文の詳細を見る
The faulting in stacking sequence of close-packed layers of the martensite in Cu-38.6 at. %Zn alloy has been studied by electron diffraction, utilizing the selected area diffraction technique of electron microscopy. Observed diffraction spots were shifted and diffused owing to the stacking faults. The shifts of sports were analyzed by the Kakinoki-Komura theory with Reichweite s=3, and the stacking fault probabilities α were found to be between 0.13 and 0.43, α being a fault parameter representing the cubic type stacking faults. The result is compared with the case of the Cu-Al martensite: the predominant type of stacking faults is cubic type for the Cu-Zn martensite while hexagonal type for the Cu-Al martensite. This difference is explained by the phenomenological theory of martensitic transformation.
- 社団法人日本物理学会の論文
- 1971-03-02
著者
関連論文
- Development of Prestressed Concrete Using Fe-Mn-Si-Based Shape Memory Alloys Containing NbC
- The Orientation Relationships and Crystal Habits in the Martensite Transformation of a Cu-Al Alloy
- Strain-Induced Martensite Structures of a Cu-Zn Alloy
- Effect of Pre-Deformation of Austenite on Shape Memory Properties in Fe-Mn-Si-based Alloys Containing Nb and C
- Mechanism of the Improvement of the Shape Memory Effect by "Training" and Ausforming in Fe-Mn-Si Based Shape Memory Alloys
- Effects of High Magnetic Field and Tensile Stress on Martensitic Transformation Behavior and Microstructure at 4.2K in Fe-Ni-C Alloys
- Transformation from a Lattice of "ABCBCACAB" Stacking Order to f.c.c Lattice by Deformation
- Cubic Type Stacking Faults in the As-Quenched Martensite of a Cu-Al Alloy
- Stacking Disorder in Martensite of Cu-Zn Alloy
- Stacking Fault Probabilities in Copper-Aluminum Martensite Transformed in Thin Foils
- Characterisation of Microstructure of Isothermally Transformed Martensite in Low Temperature in Powder and Bulk State of Fe-23Ni-3.6Mn(mass%) Alloy by Rietveld's Method
- Martensite Transformation and Shape Recovery in Pre-Deformed Fe-15Mn-5Si-9Cr-5Ni-(0.5-1.5) NbC Alloys
- Stacking Faults In the Martensite of Cu-AI Alloy
- Lattice Imaging Study of Boundaries in Martensite in Shape Memory Alloys
- Shifts of Electron Diffraction Spots of Cu-Al Martensite Transformed in Thin Foils
- Stacking Disorder in Martensites of Cobalt and Its Alloys
- Theoretical Analysis of the Crystallography of the BCC to FCT Martensitic Transformation