Faisal Rahmani scite author profile

It becomes impossible to use conventional fluid film journal bearings in the hot working environments (500–800 °C) due to rapid thermal degradation of lubricating oils. Under this situation, powder lubricants prove beneficial in spite of high friction values associated with them in comparison to lubricating oils. Thus, reduction of friction in powder-lubricated journal bearings is an essential task for making the operation energy efficient. Hence, the objective of this paper is to explore the reduction of coefficient of friction in a powder-lubricated journal bearing employing different pocket shapes (elliptical, parabolic, rectangular, and trapezoidal) placed on bore surface. Based on the investigations reported herein, it is found that the journal bearing having rectangular pocket yields least coefficient of friction among all the cases.

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Influence of Elliptic Bore and Non-Newtonian Rheology of Lubricant on the Performance and Stability of Journal Bearing

Rahmani

Pandey

Dutt

2016

Procedia Technology

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Dynamic Characteristics of a Finite-Width Journal Bearing Lubricated with Powders

Rahmani

Dutt

Pandey

2016

Procedia Engineering

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On the Stiffness and Damping Coefficients of Constant Flow Valve Compensated Conical Hydrostatic Journal Bearing with Micropolar Lubricant

Rana

Gautam

Verma

et al. 2016

Procedia Technology

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Faisal Rahmani

Performance behaviour of elliptical-bore journal bearings lubricated with solid granular particulates

Performance Studies of Powder-Lubricated Journal Bearing Having Different Pocket Shapes at Cylindrical Bore Surface

Influence of Elliptic Bore and Non-Newtonian Rheology of Lubricant on the Performance and Stability of Journal Bearing

Dynamic Characteristics of a Finite-Width Journal Bearing Lubricated with Powders

On the Stiffness and Damping Coefficients of Constant Flow Valve Compensated Conical Hydrostatic Journal Bearing with Micropolar Lubricant

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