Add to ORKGThis paper presents a reduced order model for a permanent magnet (PM) and high-temperature superconductor (HTSC) in an axisymmetric frame. This model is formulated as a bond-graph to aid integration into system models for applications such as lift bearings, where the nonlinear force–displacement interactions are important for stability analysis and control design. The reduced-order model is based on the mechanical and electromagnetic interaction between a PM and bulk HTSC. Performance of the proposed reduced-order model is compared to finite element method (FEM) analysis and experimental tests to confirm the static and transient performance.Center for Electromechanic
In September 1987 research at Cornell levitated a small rotor on superconducting bearing at 10,000 r...
The magnetic field trapping capability of a bulk superconductor is essentially determined by the cri...
AbstractThe determination of the optimum force between a permanent magnet and a high temperature sup...
Bond graphs are highly useful for modeling systems across multiple energy domains, such as the mecha...
This paper describes the application of lumped parameter modeling techniques to designing high tempe...
Bulk high temperature superconductors (HTSC) are being considered for use in several engineering app...
This paper discusses a lumped parameter modeling methodology to describe the dynamic vertical and tr...
In the present work the dynamical behavior of a magnetic levitating linear bearing suitable for work...
In superconducting magnetic levitation systems, interaction models between a high temperature super...
A superconductor flywheel energy storage(SFES) system is mainly act an electro-mechanical battery wh...
Based on the levitating design of the Zero-Field-Cooled (ZFC) Maglev previously developed, a novel h...
Most practical bearings are mechanical bearings such as ball-bearings and roller-bearings. They have...
A superconductor flywheel energy storage system (SEES) is mainly used as an electro-mechanical batte...
In September 1987, researchers at Cornell levitated a small rotor on superconducting bearings at 10,...
This paper presents the conception, simulation and experimental evaluation of magnetic bearings base...
In September 1987 research at Cornell levitated a small rotor on superconducting bearing at 10,000 r...
The magnetic field trapping capability of a bulk superconductor is essentially determined by the cri...
AbstractThe determination of the optimum force between a permanent magnet and a high temperature sup...
Bond graphs are highly useful for modeling systems across multiple energy domains, such as the mecha...
This paper describes the application of lumped parameter modeling techniques to designing high tempe...
Bulk high temperature superconductors (HTSC) are being considered for use in several engineering app...
This paper discusses a lumped parameter modeling methodology to describe the dynamic vertical and tr...
In the present work the dynamical behavior of a magnetic levitating linear bearing suitable for work...
In superconducting magnetic levitation systems, interaction models between a high temperature super...
A superconductor flywheel energy storage(SFES) system is mainly act an electro-mechanical battery wh...
Based on the levitating design of the Zero-Field-Cooled (ZFC) Maglev previously developed, a novel h...
Most practical bearings are mechanical bearings such as ball-bearings and roller-bearings. They have...
A superconductor flywheel energy storage system (SEES) is mainly used as an electro-mechanical batte...
In September 1987, researchers at Cornell levitated a small rotor on superconducting bearings at 10,...
This paper presents the conception, simulation and experimental evaluation of magnetic bearings base...
In September 1987 research at Cornell levitated a small rotor on superconducting bearing at 10,000 r...
The magnetic field trapping capability of a bulk superconductor is essentially determined by the cri...
AbstractThe determination of the optimum force between a permanent magnet and a high temperature sup...