Add to ORKGIt has been traditionally thought that a coaxial magnetic gear (MG) can only have a high volumetric torque density at a low gear ratio. This paper points out that by using the right sized radius and utilizing judicious radial parameter sweep analysis a high torque density can be created that also operates with a high gear ratio. An example design is presented that has a 33:1 gear ratio and a 3-D finite element analysis calculated torque density in excess of 300 Nm/L. The paper also provides a direct torque density comparison of the Halbach rotor MG relative to the surface mounted permanent magnet MG
This paper presents the analysis and design optimization of a coaxial surface-mounted permanent-magn...
Power transmission is traditionally achieved with a mechanical gear. These gears require maintenance...
The idea to couple a gear magnetically has been around for some time, and has gained increased inter...
This paper presents the design, analysis, and experimental testing results for a 5.67:1 Halbach roto...
This paper investigates the volumetric torque density performance of a radial and an axial cycloidal...
By utilizing magnetic field space modulation magnetic gearboxes (MGs) are able to create speed ampli...
This paper presents the performance comparison between a flux concentration and triple permanent mag...
This paper presents the electromagnetic and mechanical design as well as experimental testing result...
This paper proposes a coaxial magnetic gear that offers higher torque density, lower cogging torque,...
This paper quantitatively compares two coaxial magnetic gears (CMGs) with different topologies, name...
This paper introduces a coaxial magnetic gearbox with a new high-speed rotor configuration. The prop...
Udgivelsesdato: MAY-JUNThis paper presents calculation and measurement results of a highperformance ...
The magnetic gear (MG) is an emerging technology that has been proved to possess superior performanc...
This paper presents a novel magnetic gear, which has a higher torque transmission density than its c...
This paper presents calculation and measurement results of a high-performance permanent-magnetic gea...
This paper presents the analysis and design optimization of a coaxial surface-mounted permanent-magn...
Power transmission is traditionally achieved with a mechanical gear. These gears require maintenance...
The idea to couple a gear magnetically has been around for some time, and has gained increased inter...
This paper presents the design, analysis, and experimental testing results for a 5.67:1 Halbach roto...
This paper investigates the volumetric torque density performance of a radial and an axial cycloidal...
By utilizing magnetic field space modulation magnetic gearboxes (MGs) are able to create speed ampli...
This paper presents the performance comparison between a flux concentration and triple permanent mag...
This paper presents the electromagnetic and mechanical design as well as experimental testing result...
This paper proposes a coaxial magnetic gear that offers higher torque density, lower cogging torque,...
This paper quantitatively compares two coaxial magnetic gears (CMGs) with different topologies, name...
This paper introduces a coaxial magnetic gearbox with a new high-speed rotor configuration. The prop...
Udgivelsesdato: MAY-JUNThis paper presents calculation and measurement results of a highperformance ...
The magnetic gear (MG) is an emerging technology that has been proved to possess superior performanc...
This paper presents a novel magnetic gear, which has a higher torque transmission density than its c...
This paper presents calculation and measurement results of a high-performance permanent-magnetic gea...
This paper presents the analysis and design optimization of a coaxial surface-mounted permanent-magn...
Power transmission is traditionally achieved with a mechanical gear. These gears require maintenance...
The idea to couple a gear magnetically has been around for some time, and has gained increased inter...