Add to ORKGpeer reviewedModel refinements of magnetic circuits are performed via a subdomain finite element method. A complete problem is split into subproblems with overlap- ping meshes, to allow a progression from source to reaction fields, ideal to real flux tubes, 1-D to 3-D models, perfect to real materials, statics to dynamics, with any coupling of these changes. Its solution is then the sum of the subproblem solutions. The procedure simplifies both meshing and solving processes, and quantifies the gain given by each refinement on both local fields and global quantities
peer reviewedMagnetodynamic models are split into a sequence of progressive finite element subproble...
Abstract: Accurate magnetic flux distributions are calculated in magnetic circuits via a subproblem ...
peer reviewedA progressive modeling of transformers is performed via a subproblem finite element met...
peer reviewedModel refinements of magnetic circuits are performed via a subdomain finite element met...
Model refinements of magnetic circuits are performed via a subdomain finite element method. A comple...
peer reviewedModel refinements of magnetic circuits are performed via a subdomain finite element met...
peer reviewedModel refinements of non-linear magnetic circuits are performed via a finite element su...
peer reviewedModel refinements of non-linear magnetic circuits are performed via a finite element su...
Abstract ⎯ Model refinements of magnetic circuits are per-formed via a subdomain finite element meth...
peer reviewedModel refinements of magnetic circuits are performed via a subproblem finite element me...
peer reviewedModel refinements of magnetic circuits are performed via a subproblem finite element me...
Purpose – The purpose of this paper is to develop a sub-domain perturbation technique for refining m...
Purpose: The purpose of this paper is to develop a sub-domain perturbation technique for refining ma...
peer reviewedModel refinements of magnetic circuits are performed via a subproblem finite element me...
peer reviewedRepetitive finite element (FE) computations are needed when studying variations of geom...
peer reviewedMagnetodynamic models are split into a sequence of progressive finite element subproble...
Abstract: Accurate magnetic flux distributions are calculated in magnetic circuits via a subproblem ...
peer reviewedA progressive modeling of transformers is performed via a subproblem finite element met...
peer reviewedModel refinements of magnetic circuits are performed via a subdomain finite element met...
Model refinements of magnetic circuits are performed via a subdomain finite element method. A comple...
peer reviewedModel refinements of magnetic circuits are performed via a subdomain finite element met...
peer reviewedModel refinements of non-linear magnetic circuits are performed via a finite element su...
peer reviewedModel refinements of non-linear magnetic circuits are performed via a finite element su...
Abstract ⎯ Model refinements of magnetic circuits are per-formed via a subdomain finite element meth...
peer reviewedModel refinements of magnetic circuits are performed via a subproblem finite element me...
peer reviewedModel refinements of magnetic circuits are performed via a subproblem finite element me...
Purpose – The purpose of this paper is to develop a sub-domain perturbation technique for refining m...
Purpose: The purpose of this paper is to develop a sub-domain perturbation technique for refining ma...
peer reviewedModel refinements of magnetic circuits are performed via a subproblem finite element me...
peer reviewedRepetitive finite element (FE) computations are needed when studying variations of geom...
peer reviewedMagnetodynamic models are split into a sequence of progressive finite element subproble...
Abstract: Accurate magnetic flux distributions are calculated in magnetic circuits via a subproblem ...
peer reviewedA progressive modeling of transformers is performed via a subproblem finite element met...