Wall slip effects in (elasto) hydrodynamic journal bearings

摘要

In recent years it has been shown experimentally by a number of workers that, for certain engineered surfaces, the no-slip boundary condition is not a valid one. Moreover, researchers demonstrate that like surface texturing, well-chosen slipo-slip surface patterning can considerably improve the performance of fluid bearings. Firstly, a finite element analysis is proposed in order to study the influence of wall slip over the load carrying capacity and power loss in hydrodynamic fluid bearings. A systematic comparison is made with textured bearing conditions. A significant number of numerical simulations show that, comparing with the textured bearings, wall slip conditions lead to better power loss improvements. Concerning the load capacity, the two solutions can lead to similar improvements, but only for specific surface patterns. Also, particular care must be taken in choosing the texture/slip zone geometry because an inappropriate choice can lead to a drastic deterioration of the bearing performance, especially in relation to load-carrying capacity. Secondly, the study is extended to the influence of wall slip in highly loaded compliant bearings, for steady-state and dynamical load conditions. The predictions show that well-chosen slipo-slip surface pattern can considerably improve the bearing behaviour and largely justify future numerical and experimental works.