Compositional Dependence of the Magnetomechanical Effect in Substituted Cobalt Ferrite for Magnetoelastic Stress Sensors

This paper reports on a systematic system of the effects of Mn and Cr substitution on the magnetomechanical properties of cobalt ferrites, which hold promise for non-contact stress sensing applications due to their strong magnetomechanical coupling. Magnetomechanical tests were performed on sintered...

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Bibliographic Details
Published in:IEEE transactions on magnetics 2007-06, Vol.43 (6), p.2367-2369
Main Author: Lo, C.C.H.
Format: Article
Language:English
Subjects:
Anisotropy
Chromium
Cobalt
Cobalt ferrites
Cross-disciplinary physics: materials science
rheology
Derivatives
Exact sciences and technology
Ferrites
Magnetic anisotropy
Magnetic sensors
Magnetism
Magnetization
Magnetomechanical effects
Magnetostriction
magnetostrictive devices
Manganese
Materials science
Other topics in materials science
Perpendicular magnetic anisotropy
Physics
Saturation magnetization
Strain
Stress
Stresses
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Summary:This paper reports on a systematic system of the effects of Mn and Cr substitution on the magnetomechanical properties of cobalt ferrites, which hold promise for non-contact stress sensing applications due to their strong magnetomechanical coupling. Magnetomechanical tests were performed on sintered bulk CoMn x Fe 2-x O 4 and CoCry Fe 2-y O 4 by measuring the change in surface field versus the sample strain under tension. The stress sensitivity first increases as a result of Mn or Cr substitution, peaks at x=0.2 and y=0.4, and decreases below that of pure cobalt ferrite at high Mn or Cr content. The strain derivative exhibits similar dependence on the Mn and Cr content. The results can be interpreted by considering stress-induced changes in magnetization against anisotropy, in which case the strain derivative and stress sensitivity are proportional to the ratio of saturation magnetostriction lambda S to anisotropy K. Mn or Cr substitution reduces both lambda S and K. However, for substitute contents in the vicinity of x=0.2 and y=0.4, K decreases more rapidly than lambda S, causing lambda S /K and hence the strain derivative and stress sensitivity to increase
ISSN:0018-9464
1941-0069
DOI:10.1109/TMAG.2007.892536