Power Losses in Electrotechnical Sheet Steel under Rotational Magnetization

“…Remembering that B , H and Θ B quantities depend on the ϕ angular position, we get the hysteresis loss energy expression under the rotational magnetisation within the limits of the ϕ angular position. After conversion if the full cycle of rotational magnetisation is taken into consideration it is possible to write (Anuszczyk, 1991): Equation 4 The average values of the hysteresis power loss under the rotational magnetisation come from the instantaneous energy values integrated over the cycle: Equation 5 where: T – the period of the rotational magnetisation cycle. The classical eddy current and hysteresis losses, calculated in this way, have to be completed with the excess losses.…”

The calculation of the classical loss as well as the excess loss in the soft magnetic materials under the rotational magnetisation

“…Remembering that B , H and Θ B quantities depend on the ϕ angular position, we get the hysteresis loss energy expression under the rotational magnetisation within the limits of the ϕ angular position. After conversion if the full cycle of rotational magnetisation is taken into consideration it is possible to write (Anuszczyk, 1991): Equation 4 The average values of the hysteresis power loss under the rotational magnetisation come from the instantaneous energy values integrated over the cycle: Equation 5 where: T – the period of the rotational magnetisation cycle. The classical eddy current and hysteresis losses, calculated in this way, have to be completed with the excess losses.…”

The calculation of the classical loss as well as the excess loss in the soft magnetic materials under the rotational magnetisation