Add to ORKGIn this paper, the hydrodynamic lubrication of finite porous self-lubricating journal bearings is investigated taking into account the rheological lubricant behavior effect. The modified Reynolds equation is derived by considering both the fluid flow in the porous matrix and the lubricant rheological behavior where Darcy’s law and power- law model were used. Governing differential equations were solved numerically using the finite difference method. Static characteristics are obtained by considering three types of lubricants: pseudo-plastic, dilatant and Newtonian fluids. Obtained results showed that the power law index, n, has important effects on the performance of porous and non-porous bearings. An improvement in the fluid bearing charac...
The proposed work is concerned with the theoretical and numerical investigation of the lub...
AbstractThis paper presents the analytical model of the radial bearing of the finite length with the...
Bearing stability depends on the slenderness ratio (L/D), lubricant film thickness, lubricant whirl ...
This paper is about the calculation of hydrodynamic load carrying capacity of porous journal bearing...
This paper is about the calculation of hydrodynamic load carrying capacity of porous journal bearing...
The objective of the present work is to study theoretically, the steady-state performance of finite ...
In the present study, the static characteristics of hydrodynamic circular journal bearings of finite...
AbstractOn the basis of the Darcy's equations which define the lubrication flow in porous layers, an...
A study of the performance parameters for a journal bearing of finite length lubricated with micropo...
In this paper, the author presents the results of numerical calculations of load carrying capacities...
AbstractThe objective of this paper is to present investigations related to the performance of fluid...
The theory of the operation of porous metal bearings as given in the 1957 Conference on Lubrication ...
This research considered hydrodynamic theory on ferro-fluid flow models such as R. E. Rosensweig mod...
The proposed work is concerned with the theoretical and numerical investigation of the lub...
The present study investigates the effect of surface roughness properties on the steady-state and dy...
The proposed work is concerned with the theoretical and numerical investigation of the lub...
AbstractThis paper presents the analytical model of the radial bearing of the finite length with the...
Bearing stability depends on the slenderness ratio (L/D), lubricant film thickness, lubricant whirl ...
This paper is about the calculation of hydrodynamic load carrying capacity of porous journal bearing...
This paper is about the calculation of hydrodynamic load carrying capacity of porous journal bearing...
The objective of the present work is to study theoretically, the steady-state performance of finite ...
In the present study, the static characteristics of hydrodynamic circular journal bearings of finite...
AbstractOn the basis of the Darcy's equations which define the lubrication flow in porous layers, an...
A study of the performance parameters for a journal bearing of finite length lubricated with micropo...
In this paper, the author presents the results of numerical calculations of load carrying capacities...
AbstractThe objective of this paper is to present investigations related to the performance of fluid...
The theory of the operation of porous metal bearings as given in the 1957 Conference on Lubrication ...
This research considered hydrodynamic theory on ferro-fluid flow models such as R. E. Rosensweig mod...
The proposed work is concerned with the theoretical and numerical investigation of the lub...
The present study investigates the effect of surface roughness properties on the steady-state and dy...
The proposed work is concerned with the theoretical and numerical investigation of the lub...
AbstractThis paper presents the analytical model of the radial bearing of the finite length with the...
Bearing stability depends on the slenderness ratio (L/D), lubricant film thickness, lubricant whirl ...