Damping Capacity in Fe-27Mn-3.5Si Alloy

Authors
Jee, K.K.Shin, M.C.Ito, K.
Issue Date
1994-01
Citation
ISIJ International, v.34, no.11, pp.912 - 916
Abstract
Damping capacity in an Fe-27Mn-3.5Si alloy has been greatly improved with significant anisotropy by cold-rolling. The alloy, consisting of stacking faults and thermal ε martensite before rolling, shows poor damping capacity at low strain amplitude and strong amplitude dependence. The increase and anisotropy in the damping capacity are attributed to ε martensite induced by cold-rolling. The alloy is found to adjust itself to the deformation by forming ε martensite which has a preferred orientation of [formula omitted]. The mechanism of formation of the preferred orientation can be explained by the shear model in γ→ε transformation. With the result of microstructure and preferred orientation, a damping mechanism by ε martensite and its anisotropy is discussed. ? 1994, The Iron and Steel Institute of Japan. All rights reserved.
Keywords
Anisotropy; Cold rolling; Crystal microstructure; Crystal orientation; Damping; Deformation; Martensite; Mathematical models; Phase transitions; Specimen preparation; Stacking faults; Strain; Damping capacity; Iron manganese silicon alloy; Preferred orientation; Iron alloys; Anisotropy; Cold rolling; Crystal microstructure; Crystal orientation; Damping; Deformation; Martensite; Mathematical models; Phase transitions; Specimen preparation; Stacking faults; Strain; Damping capacity; Iron manganese silicon alloy; Preferred orientation; Iron alloys; damping capacity; Fe-Mn-Si alloy; preferred orientation; stress-induced ε martensite
ISSN
0915-1559
URI
https://pubs.kist.re.kr/handle/201004/145905
DOI
10.2355/isijinternational.34.912
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