A reduced model for finite element analysis of steel laminations
スポンサーリンク
概要
- 論文の詳細を見る
This paper describes a method which reduces the number of unknowns in the finite element analysis of steel laminations. In the present method, the global variation in the electromagnetic field is assumed to be piecewise linear or polynomial while periodical, local variation is analyzed by the finite element method. This method allows us to make accurate analysis of the field including edge effects in steel laminations with low memory consumption and short computing time
- IEEE-INST ELECTRICAL ELECTRONICS ENGINEERSの論文
著者
関連論文
- Evolutional Design of Small Antennas for Passive UHF-Band RFID
- Optimization of Meander Line Antenna Considering Coupling Between Nonlinear Circuit and Electromagnetic Waves for UHF-Band RFID
- Optimization of Inductors Using Evolutionary Algorithms and Its Experimental Validation
- 3D topology optimization using an immune algorithm
- A reduced model for finite element analysis of steel laminations
- High Performance Iterative Solver for Linear System using Multi GPU