| Title |
Study on the Performance of the Grooves for Fluid Dynamic Bearings |
| Authors |
김응철(Kim, Yeung-Cheol) ; 성세진(Seong, Se-Jin) |
| DOI |
https://doi.org/10.5370/KIEEP.2011.60.2.091 |
| Keywords |
Spindle Motor ; Fluid Dynamic Bearing ; Groove ; Finite Element Analysis ; DLP ; HDD |
| Abstract |
This paper is presented for the performance of the Fluid Dynamic Bearing(FDB) by the groove design and the tooling condition. Recently, spindle motors which require smaller size, lower sound noise, lower vibration, and higher speed of the rotation have been placed in high value-added products including Digital Lightening Processors(DLP), Hard Disk Drives(HDD), and ODDs. The spindle motors using the sintered porous metal bearing have higher vibration and acoustic noise by dry contact and large tolerance of the bearing parts. The Fluid Dynamic Bearing (FDB) with grooves is appropriate for spindle motors adequate in regards to mechanical vibration and acoustic noise. The paper shows the performance comparisons of between sintered porous metal bearing and FDB, and each FDBs according to the tooling deviations of grooves by the Finite Element Analysis(FEA) of the mechanical field. This paper shows the methods to make the grooves, the groove's depth, and the prototype of the motor with the fluid dynamic bearing. The performance characteristics of the grooves with the FDB are verified by the experimental results. |