论文信息 - Application of acoustic technique to determine the temperature range of quenched-in defect mobility in Cu-Al-Be β'1 martensitic phase - 字舞流文

Application of acoustic technique to determine the temperature range of quenched-in defect mobility in Cu-Al-Be β'1 martensitic phase

M. Morin | S. Golyandin | S. Kustov | K. Sapozhnikov

[1] J. Humbeeck,et al. Towards understanding anelasticity of the β1′ martensitic phase of Cu–Al–Ni , 2000 .

[2] J. Humbeeck,et al. Motion of dislocations and interfaces during deformation of martensitic Cu–Al–Ni crystals , 2000 .

[3] J. Humbeeck,et al. Stabilization and two-way shape memory effect in Cu-Al-Ni single crystals , 1999 .

[4] J. Humbeeck,et al. Low-temperature anomalies in Young's modulus and internal friction of Cu–Al–Ni single crystals , 1998 .

[5] C. M. Wayman,et al. Shape-Memory Materials , 2018 .

[6] T. Hsu,et al. The Behavior of Quenched‐in Vacancies and Stabilization of Martensite in Copper‐Based Shape Memory Alloys , 1992 .

[7] T. Hsu,et al. Effect of Vacancy Clustering on Stabilization of Martensite in Copper Based Shape Memory Alloys , 1991 .

[8] R. Gotthardt. STACKING FAULT FORMATION IN A FAULTED Cu-Zn-Al - MARTENSITE , 1982 .

[9] W. Robinson,et al. The Piezoelectric Method of Determining Mechanical Damping at Frequencies of 30 to 200 KHz , 1974, IEEE Transactions on Sonics and Ultrasonics.

[10] R. H. Chambers,et al. TIME-DEPENDENT INTERNAL FRICTION IN ALUMINUM AND MAGNESIUM SINGLE CRYSTALS , 1960 .