Title :
3-D Printing-Based Design of Axial Flux Magnetic Gear for High Torque Density
Author :
Mi-Ching Tsai ; Li-Hsing Ku
Author_Institution :
Dept. of Mech. Eng., Nat. Cheng Kung Univ., Tainan, Taiwan
Abstract :
This paper investigates a novel design of the axial flux-type magnetic gears that adopts L-type ferromagnetic pole pieces and spoke-type ferrite magnet arrangement. This design not only decreases flux leakage but also improves torque density. 3-D finite element analysis is employed to compute the magnetic and torque characteristics of the 3-D design. Moreover, a newly developed 3-D printing process is introduced to overcome the fabrication difficulty and expedite the manufacturing process. A prototype of this novel magnetic gear design approach is given to verify the simulation result and the feasibility of the proposed 3-D printing approach.
Keywords :
ferrite devices; finite element analysis; magnetoelectronics; three-dimensional printing; 3D finite element analysis; 3D printing; L-type ferromagnetic pole pieces; axial flux magnetic gear; flux leakage; high torque density; magnetic gear design; spoke-type ferrite magnet; Gears; Magnetic flux leakage; Magnetoacoustic effects; Rotors; Saturation magnetization; Three-dimensional displays; Torque; 3-D printing; 3D priniting; Magnetic gears; contactless coupling; ferromagnetic pole pieces; magnetic gears;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2015.2435817
