@article{oai:kyutech.repo.nii.ac.jp:00005041,
 author = {Hatakenaka, Kiyoshi and 畠中, 清史 and 笠原,  王徳 and 石橋,  信彦},
 issue = {9},
 journal = {トライボロジスト},
 month = {Sep},
 note = {Floating bush journal bearings are widely used to support small-sized high speed rotating machinery. The bearing shows the following peculiar phenomena when the supplied pressure is low. That is, the bush-to journal speed ratio decreases and the disappearance of the oil whip may be observed as the journal rotational speed increases These could be explained qualitatively when the model with the axial oil film rupture being considered is applied to the inner oil film of the bearing. However, the predictions are in quantitatively poor agreement with the measurements. This paper aims at predicting the bush driving torque of the inner oil film by utilizing the cubic interpolated pseudoparticle (CIP) method that has been developed in the numerical analysis of the multi-phase flow. It is found that the predicted torque is much smaller than the torque obtained from the previous model when the journal speed is high. This results from the incursion of the air into the film from the bearing side end. The effect of some design variables such as the surface tension, which cannot be incorporated in the previous model, on the torque is also shown.},
 pages = {612--620},
 title = {混相流の数値解法を応用した浮動ブシュ軸受の内側油膜におけるブシュ駆動トルク},
 volume = {53},
 year = {2008},
 yomi = {ハタケナカ, キヨシ}
}