Title :
An Improved XFEM With Multiple High-Order Enrichment Functions and Low-Order Meshing Elements for Field Analysis of Electromagnetic Devices With Multiple Nearby Geometrical Interfaces
Author :
Nana Duan ; Weijie Xu ; Shuhong Wang ; Jianguo Zhu ; Youguang Guo
Author_Institution :
Fac. of Electr. Eng., Xi´an Jiaotong Univ., Xi´an, China
Abstract :
This paper proposes an improved extended finite element method for modeling electromagnetic devices with multiple nearby geometrical interfaces. In regions near these interfaces, the magnetic vector potential approximation is enriched by incorporating multiple derivative discontinuous fields based on the partition of unity method such that the interfaces can be represented independent of the mesh. The support of a node or an element can be cut by several interfaces. This method results in the high accuracy in the approximation field and derivative field. Numerical examples applied to the iron core in 1-D eddy current field involving level set-based parts, error analysis, and electromagnetic field computations are provided to demonstrate the utility of the proposed approach.
Keywords :
eddy currents; electromagnetic devices; electromagnetic fields; error analysis; finite element analysis; 1D eddy current field; XFEM; electromagnetic device field analysis; electromagnetic field computation; error analysis; extended finite element method; iron core; low-order meshing element; magnetic vector potential approximation; multiple high-order enrichment function; multiple nearby geometrical interface; unity method; Approximation methods; Coatings; Iron; Level set; Magnetic cores; Nickel; Shape; Eddy current; extended finite element method (XFEM); high-order enrichment function; nearby geometrical interfaces;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2358792
