Investigation of the effect of alloying elements on damping capacity and magnetic domain structure of Fe-Cr-Al based vibration damping alloys

Abstract

Fe-13Cr-2Al-1Si damping alloys with high damping capacity were chosen as the research object in this study. 0.5Cu+0.5Mo and 0.5Ti+0.5Mo replaced 1Si without variation in other component contents. The paper investigated the effect of alloying elements Cu, Mo and Ti on the microstructure, damping capacity and magnetic domain structure of Fe-13Cr-2Al-1Si alloys. The results indicated that the alloy elements Cu, Mo, and Ti had no effect on the phase structure and microstructure of Fe-13Cr-2Al-1Si damping alloys. However, after the replacement of 1Si by 0.5Cu+0.5Mo and 0.5Ti+0.5Mo respectively, “dendritic” magnetic domain structure could be easily observed in the alloys and the alloys could keep high damping behavior in a wider range of strain amplitude. Besides, it is shown that after adding alloy elements, the damping behavior of Fe-13Cr-2Al-1Si alloys was somewhat different from that of traditional ferromagnetic alloys. In high strain amplitude region there was ferromagnetic damping as well as static hysteresis dislocation internal friction, which might affect the alloy damping capacity.