Force and stiffness characteristics of superconducting bearing prototype

The radial-axial superconducting bearing prototype was designed, fabricated and tested. The YBaCuO high-temperature superconducting (HTS) monodomain disks circle divide28mm and thickness of h = 4; 6; 8; 10mm, capable to trap magnetic field I T, were fabricated to be employed in bearing prototype. Force interaction of single field cooled HTS disks with NdFeB magnets depending on disk thickness under I mm magnet air gap was studied. It was found that the increase in disk thickness results in reducing radial stiffness and in growing axial one. The results obtained were used for optimization of HTS-PM arrangement, and for developing the bearing design. The designed bearing incorporates a rotor with 7 HTS disks of 4 mm thickness, total mass 90 g, and stator with two pairs of permanent annular magnets of NdFeB. It is established that the force-displacement dependencies of the bearing have three zones: non-hysteresis (elastic) zone with high stiffness up to 560N/mm; zone of elastic interaction with stiffness 190N/mm; hysteretic zone with stiffness 150N/ mm in which a rotor residual displacement being observed after unloading. The outer bearing diameter is 130mm, thickness 30 mm, and mass 1.8 kg. The maximal radial load capacity of the bearing is 190 N at the rotor displacement of 1.3mm. and the maximal axial load capacity is 85N at the displacement of 1mm. (C) 2004 Elsevier B.V. All rights reserved.