Magneto-Mechanical Topology Optimization with Generalized Optimality Criteria
Résumé
In this article, the design of a synchronous reluctance motor (SynRM) is subjected to a multi-physical topology optimization (TO) using the Generalized Optimality Criteria (GOC) method. To ensure the structural integrity of the rotor, a two-step magnetomechanical optimization approach is employed. The objective functions, focusing on magnetic and mechanical aspects, are formulated by considering the magnetic energies obtained from d-axis and q-axis stator currents, as well as the mechanical compliance. The gradients of these objective functions are computed using the adjoint variable method.
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