Magnet (unidirectional): demagnetization curve (Hc, Br) + knee

Presentation

This model ( Nonlinear magnet described by H c and the B r module, plus knee adjustment ) defines a nonlinear B(H) dependence with taking into account of demagnetization and knee adjustment .

Main characteristics:

the mathematical model and the direction of magnetization are dissociated
a single material for description of several regions

Mathematical model

In the direction of magnetization the model is a combination of a straight line and an arc tangent curve . A coefficient adjusts the shape of the curve knee for a better approximation of the experimental curve

The corresponding mathematical formula is written:

with

where:

μ₀ is the permeability of vacuum, μ₀ = 4 π 10^-7 H/m
μ_r is the relative permeability of material (for H = H_c)
H_c is the coercive field strength A/m
a is the knee adjustment coefficient (0 < a and a < > 1)

The smaller the coefficient, the sharper the knee is.

J_s' is computed by dichotomy from B_r, H_c and μ_r, with the equation

The shape of the B(H) dependence in the direction of magnetization is given in the opposite figure.

In transversal directions one can write:

B_⊥(H) = μ₀μ_r⊥H_⊥

where μ_r⊥ is the transverse relative permeability

Direction of magnetization

The various possibilities provided to the user are the same ones as those presented in § Magnet (unidirectional): linear approximation.