Performance Analysis of Thermal and Surface Roughness Effect of Slider Bearings with Unsteady Fluid Film Lubricant Using Finite Element Method

Tessema, Girma Desu; Derese, Getachew Adamu; Tiruneh, Awoke Andargie

doi:10.1155/2024/9993489

Journal of Applied Mathematics

2024

DOI: 10.1155/2024/9993489

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Performance Analysis of Thermal and Surface Roughness Effect of Slider Bearings with Unsteady Fluid Film Lubricant Using Finite Element Method

Girma Desu Tessema,

Getachew Adamu Derese,

Awoke Andargie Tiruneh

Abstract: The streamline upwind Petrov-Galerkin (SUPG) finite element method was used in this study to investigate the thermal and surface roughness effects on an inclined slider bearing with an unsteady fluid film. One-dimensional transverse and longitudinal surface roughness models were considered with the supposition that roughness is stochastic and has a Gaussian random distribution. For simplicity of numerical computation, the irregularity caused by the texture of the surface is transformed into a regular domain. T… Show more

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2024

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Cited by 2 publications

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Series solution of the Reynolds equation in finite-length tilting-pad journal bearing including pad deformation

Wei,

Wu,

Jiao

2024

Applied Mathematical Modelling

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Series solution of the Reynolds equation in finite-length tilting-pad journal bearing including pad deformation

Wei,

Wu,

Jiao

2024

Applied Mathematical Modelling

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Bearing Performance Analysis of the Thermal and Surface Roughness Effects by Finite Element Method on Slider Bearings Through Non‐Newtonian Fluid‐Type Lubricant

Tessema,

Derese,

Tiruneh

2024

International Journal of Aerospace Engineering

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The finite element method was used in this study to explore the impact of surface roughness and thermal characteristics on slider bearings with non‐Newtonian power‐law fluid flow lubricant. One‐dimensional transverse and longitudinal surface roughness models were considered under the stochastic assumption that roughness has a Gaussian random distribution. For improved computing efficiency, the surface’s uneven texture is transformed into a regular domain. For non‐Newtonian power‐law lubrication, a modified Reynolds equation was developed. The pressure distribution of the combined effect is less than that of the surface roughness and thermal effect in longitudinal surface roughness for all non‐Newtonian parameters n and M⊛ values. As a result, there is an 1.6% reduction in load‐carrying capacity performance and negligible friction force for nonparallel w = 0.4 between the thermal effect and surface roughness. Nevertheless, for all non‐Newtonian parameters n and M⊛ values, the pressure distribution of the thermal effect in the transverse roughness model is smaller than that of the combined and surface roughness effects. Consequently, there is an 8.9% reduction in load‐carrying capacity performance and a negligible friction force for nonparallel w = 0.4 between the surface roughness effect and the thermal effect condition, respectively. Additionally, the combined impacts at different temperatures were examined. As a result, in longitudinal models, the load‐carrying capacity performance is better when the slider temperature is higher than the pad temperature, and vice versa for transverse models. Surface roughness and non‐Newtonian power‐law fluid characteristics generally enhance the performance of a slider bearing. Tables and graphs were employed to present the results.

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Performance Analysis of Thermal and Surface Roughness Effect of Slider Bearings with Unsteady Fluid Film Lubricant Using Finite Element Method

Cited by 2 publications

References 34 publications

Series solution of the Reynolds equation in finite-length tilting-pad journal bearing including pad deformation

Series solution of the Reynolds equation in finite-length tilting-pad journal bearing including pad deformation

Bearing Performance Analysis of the Thermal and Surface Roughness Effects by Finite Element Method on Slider Bearings Through Non‐Newtonian Fluid‐Type Lubricant

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