Author:
Hong SeungGeon,Lee Kang Hyouk,Park Il Han
Abstract
Purpose
The purpose of this paper is to propose dot sensitivity analysis of ferromagnetic materials for topology optimization in an axi-symmetric magnetostatic system.
Design/methodology/approach
The dot sensitivity formula for the axi-symmetric system is derived as a closed form using the continuum shape sensitivity formula. The dot sensitivity method is combined with the level set method to perform topology optimization.
Findings
Derived dot sensitivity analysis can generate a ferromagnetic ring torus in a vacant region. Thus, an initial design is not needed for the design material. Two design problems are tested to demonstrate the usefulness of dot sensitivity.
Originality/value
By simultaneously using the shape sensitivity and dot sensitivity, in axi-symmetric magnetic system, the design space is expanded and it includes the interface and the inside of the vacant region. This property can reduce the possibility of local optimum convergence.
Subject
Applied Mathematics,Electrical and Electronic Engineering,Computational Theory and Mathematics,Computer Science Applications
Reference10 articles.
1. The shape and topological optimizations connection;Computer Methods in Applied Mechanics and Engineering,2000
2. Derivation of hole sensitivity formula for topology optimization in magnetostatic system using virtual hole concept and shape sensitivity;IEEE Transactions on Magnetics,2015
3. Topology optimization of rotor in synchronous reluctance motor using level set method and shape design sensitivity;IEEE Transactions on Applied Superconductivity,2010
4. Derivation of a general sensitivity formula for shape optimization of 2-D magnetostatic systems by continuum approach;IEEE Transactions on Magnetics,2002
5. Shape formation of ferrofluid under external magnetic fields using level set method;Journal of Applied Physics,2009