Chapter 2: Theory of Heating by Induction
This chapter discusses the basic principles of induction heating and related engineering considerations. It describes the design and operation of induction coils, the magnitude and distribution of magnetic fields, and the forces that generate eddy currents in metals. It explains how induced electrical current causes metal to heat in proportion to their electrical resistance and how it affects temperature dependent properties such as resistivity and specific heat and, in turn, heating rates and efficiencies. It also discusses the effect of hysteresis and explains why eddy currents tend to be confined to the outer surface of the workpiece, a phenomenon known as the skin effect. The chapter includes several data plots showing how the depth of heating varies with frequency and how heating time, power density, and thermal conduction rate correspond with hardening depth.
Theory of Heating by Induction, Practical Induction Heat Treating, 2nd ed., By Richard E. Haimbaugh, ASM International, 2015, p 9–23, https://doi.org/10.31399/asm.tb.piht2.t55050009
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