S. C. Mohan scite author profile

This paper investigates squeeze film bearings supporting a centrally preloaded rigid rotor mounted in antifriction bearings. Assuming the short bearing approximation and isothermal, incompressible lubrication, design data are presented for such a system over a wide range of operating conditions. Design considerations include the possibility of undesirable operation modes, the maximum unbalance for which the squeeze film support is superior to the rigid mount, the transmissibility at design speed and the forces transmitted during start-up. It is shown that unbalance force attenuations by factors of three or more are a practical possibility with a consequent increase in antifriction bearing life. A numerical example is included.

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A comparative study on crack identification of structures from the changes in natural frequencies using GA and PSO

Mohan

Yadav

Maiti

et al. 2014

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Purpose – The early detection of cracks, corrosion and structural failure in aging structures is one of the major challenges in the civil, mechanical and aircraft industries. Common inspection techniques are time consuming and hence can have strong economic implications due to downtime. The paper aims to discuss these issues. Design/methodology/approach – As a result, during the past decade a number of methodologies have been proposed for detecting crack in structure based on variations in the structure's dynamic characteristics. This work showcases the efficacy of particle swarm optimization (PSO) and genetic algorithm (GA) in damage assessment of structures. Findings – Efficiency of these tools has been tested on structures like beam, plane and space truss. The results show the effectiveness of PSO in crack identification and the possibility of implementing it in a real-time structural health monitoring system for aircraft and civil structures. Originality/value – The methodology presented establishes the PSO as robust and competent tool over GA for crack identification using changes in natural frequencies.

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Structural Optimization of Rotating Disk Using Response Surface Equation and Genetic Algorithm

Mohan

Maiti

2013

International Journal for Computational Methods in Engineering

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Evaluation of seismic torsional response of ductile RC buildings with soft first story

Hareen

Mohan

2021

Structures

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S. C. Mohan

Structural damage assessment using FRF employing particle swarm optimization

Design of Squeeze Film Damper Supports for Rigid Rotors

A comparative study on crack identification of structures from the changes in natural frequencies using GA and PSO

Structural Optimization of Rotating Disk Using Response Surface Equation and Genetic Algorithm

Evaluation of seismic torsional response of ductile RC buildings with soft first story

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