INORGANIC BINDERS FOR C CORES

Abstract

Cores are constructed by applying a thin glassy layer to magnetic steel strip and winding the composite until the required build-up is attained. The final laminar bond between adjacent glassy layers is accomplished by heat treatment at the softening temperature of the glass. The hot-winding method for obtaining the laminar bond did not eliminate the need for stress relief annealing. The cold-winding method proposed is just as effective in obtaining the laminar bond, providing the softening temperature of the glass coincides with the requisite stress relief annealing temperature. A viscosity of approximately 10 to the 8th power poises at 810 C is required for glassy binders used in cold-wound cores. For a stress-free core, the binder is also required to match the thermal expansivity of the magnetic material. The coefficient of thermal expansion for grain-oriented silicon steel is approximately 13.5 x 10 to the 6th power. The difficulty in obtaining a glass composition which would satisfy both high viscosity and high thermal expansivity is discussed. The system, Na2O.xRO2.(3-x)SiO2 (where R is Zr or Ti) and Rb2O-CaO-SiO2, are being studied for the development of a suitable binder. The importance of surface condition of the magnetic material and binder slip consistency is discussed. (Author)

Document Details

Document Type

Technical Report

Publication Date

Jul 27, 1961

Accession Number

AD0262262

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