Title :
Metal-bonded Co-ferrite composites for magnetostrictive torque sensor applications
Author :
Chen, Y. ; Snyder, J.E. ; Schwichtenberg, C.R. ; Dennis, K.W. ; McCallum, R.W. ; Jiles, D.C.
Author_Institution :
Ames Lab., Iowa State Univ., Ames, IA, USA
fDate :
9/1/1999 12:00:00 AM
Abstract :
A new class of magnetomechanical sensor materials, Co-ferrite (CoO·Fe2O3) and metal-bonded (Ag, Ni, Co) Co-ferrite composites, has been investigated. These materials exhibited magnetostriction in excess of 200 ppm and high d33 (∂λ/∂H)σ coefficient, 1.3×10-9 A-1 m, at low applied field (<100 kA/m). Selected compositions were formed into test samples in the form of rings brazed to stainless steel through-shafts. Changes of surface axial magnetic field in response to applied torque as high as 64 AN-1 m-2 were observed for a demonstration sample of dimensions 25 mm OD, 12.5 mm ID, and 8 mm high. A hysteresis of ±0.5 N·m was observed. These materials appear to be promising candidates for torque sensors, and other magnetostrictive sensor and actuator applications
Keywords :
cobalt compounds; coercive force; composite materials; ferrite devices; ferrites; magnetic hysteresis; magnetic sensors; magnetostriction; magnetostrictive devices; powder technology; sintering; torque measurement; Fe2O3-Ag; Fe2O3-AgNi; Fe2O3-Ni; brazed rings; coercivity; domain processes; high magnetostriction; hysteresis; magnetomechanical sensor materials; magnetostrictive torque sensor; metal-bonded Co-ferrite composites; sintering; stainless steel through-shafts; surface axial magnetic field changes; Composite materials; Gas detectors; Inorganic materials; Magnetic fields; Magnetic materials; Magnetic sensors; Magnetostriction; Steel; Testing; Torque;
Journal_Title :
Magnetics, IEEE Transactions on
