Title :
Three dimensional magnetostatic finite elements for gaps and iron shells using magnetic scalar potentials
Author :
Guérin, Christophe ; Tanneau, Gérard ; Meunier, Gérard ; Brunotte, Xavier ; Albertini, Jean-Baptiste
Author_Institution :
Electr. de France, Paris, France
fDate :
9/1/1994 12:00:00 AM
Abstract :
This paper deals with magnetostatic element formulations for modelling narrow gaps in an iron core, as well as thin iron shells. These special elements have been developed for gaps in transformers or motors. Nodal elements are used with magnetic scalar potentials as state variable. The principle and the formulations of the new finite elements are described. Three numerical examples are then presented so as to validate and verify the usefulness of the special elements in terms of reduction of number of unknowns and CPU time
Keywords :
finite element analysis; iron; magnetic cores; magnetostatics; CPU time; Fe; iron core; iron shells; magnetic scalar potentials; motors; narrow gaps; nodal elements; three dimensional magnetostatic finite elements; transformers; Air gaps; Finite element methods; Heat transfer; Iron; Leg; Magnetic cores; Magnetostatics; Shape; Temperature; Transformer cores;
Journal_Title :
Magnetics, IEEE Transactions on
