Measurements of the elastic stiffness constants of single-crystal SmCo5 and of liquid-phase sintered SmCo5 permanent magnet material

Abstract

The five elastic stiffness constants were determined for both single‐crystal SmCo₅ and for the commercially processed liquid‐phase sintered (LPS) SmCo₅ permanent magnet material. The LPS material is an aligned polycrystalline aggregate of SmCo₅ crystallites oriented so that their magnetically easy c axes are approximately parallel. The elastic constants were obtained from the velocities of propagation of ultrasound in various directions in samples of known thickness and density. For the single crystal, the room‐temperature values of the constants (in units of 10¹² dyn/cm²) are c₁₁=1.968±2%, c₁₂=1.032±4%, c₁₃=1.049±4%, c₃₃=2.398±2%, and c₄₄=0.483±2%, and for the LPS permanent magnet material, c₁₁=1.330±2%, c₁₂=0.616±5%, c₁₃ =0.485±5%, c₃₃=1.659±2%, and c₄₄=0.419±2%. The decrease in elastic constants in SmCo₅ relative to cobalt can be related qualitatively to a corresponding decrease in the number of nearest‐neighbor cobalt bonds in SmCo₅.