Title :
Effect of polymer adsorbed layer on magnetic particle dispersion
Author :
Inoue, H. ; Fukke, H. ; Katsumoto, M.
Author_Institution :
Hitachi Ltd., Tokyo, Japan
fDate :
1/1/1990 12:00:00 AM
Abstract :
Experimental and theoretical investigations of dispersion properties of magnetic particles (acicular γ-Fe2O3 ) with an adsorbed epoxy-resin layer are presented. The adsorbed polymer amount was 20-110 mg/g and the adsorbed layer thickness was 6-22 nm, depending on the preparation conditions. Dispersion of γ-Fe 2O3 particles was evaluated by the sedimentation rate and surface roughness of the coated film. It was clarified that dispersion was improved with increasing adsorption, increasing solvent/epoxy-resin solubility, and decreasing γ-Fe2O 3 particle size. Interaction energy, consisting of magnetic attraction, van der Waals attraction, and steric repulsion of the adsorbed layer between two cylindrical magnetic particles, was calculated. The interaction energy curves, which vary with the distance between two particles, had primary minimum, maximum, and secondary minimum. The maximum energy and the secondary minimum energy were strongly related to dispersion stability. Experimental results are explained by the energy curve shapes
Keywords :
adsorption; disperse systems; iron compounds; magnetic fluids; magnetic properties of fine particles; sedimentation; van der Waals forces; Fe2O3 dispersion; acicular gamma Fe2O3; adsorbed epoxy-resin layer; coated film; cylindrical magnetic particles; dispersion properties; dispersion stability; energy curve shapes; interaction energy; magnetic attraction; magnetic particle dispersion; maximum energy; particle size; polymer adsorbed layer; secondary minimum energy; sedimentation rate; solvent/epoxy-resin solubility; steric repulsion; surface roughness; van der Waals attraction; Dispersion; Magnetic films; Magnetic particles; Magnetic properties; Polymers; Rough surfaces; Shape; Solvents; Stability; Surface roughness;
Journal_Title :
Magnetics, IEEE Transactions on
