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Tribology Transactions Volume 37, 1994 - Issue 1
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Original Articles

Effects of Membrane Stresses in the Prediction of Foil Bearing Performance©

Marc Carpino Department of Mechanical Engineering, Pennsylvania State University, University Park, Pennsylvania, 16802
,
Lynn A. Medvetz Department of Mechanical Engineering, Pennsylvania State University, University Park, Pennsylvania, 16802
&
Jih-Ping Peng Department of Mechanical Engineering, Pennsylvania State University, University Park, Pennsylvania, 16802
Pages 43-50 | Published online: 25 Mar 2008

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Read on this site (6)

Xuewei Zhao & Shuhong Xiao. (2021) A Finite Element Model for Static Performance Analysis of Gas Foil Bearings Based on Frictional Contacts. Tribology Transactions 64:2, pages 275-286.
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Gita Talmage & Marc Carpino. (2011) Thermal Structural Effects in a Gas-Lubricated Foil Journal Bearing. Tribology Transactions 54:5, pages 701-713.
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Marc Carpino & Gita Talmage. (2010) Minimum Film Thickness in a Gas Foil Journal Bearing with an Unbalanced Rotor. Tribology Transactions 53:3, pages 433-439.
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Dong-Hyun Lee, Young-Cheol Kim & Kyung-Woong Kim. (2009) The Dynamic Performance Analysis of Foil Journal Bearings Considering Coulomb Friction: Rotating Unbalance Response. Tribology Transactions 52:2, pages 146-156.
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Marc Carpino & Gita Talmage. (2008) Subfoil Stiffness Effects in Gas-Lubricated Foil Journal Bearings. Tribology Transactions 51:5, pages 602-608.
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Marc Carpino & Gita Talmage. (2003) A Fully Coupled Finite Element Formulation for Elastically Supported Foil Journal Bearings. Tribology Transactions 46:4, pages 560-565.
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Articles from other publishers (32)

Changlin Li, Jie Li, Zhenni Xu, Xuewei Zhao & Jianjun Du. (2023) Load carrying performance of the 2nd and 3rd generation journal bump foil bearings including two dimensional stiffness variations. Tribology International 190, pages 109016.
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Signe T. Heinemann, Janus W. Jensen, Sebastian von Osmanski & Ilmar F. Santos. (2023) Numerical modelling of compliant foil structure in gas foil bearings: Comparison of four top foil models with and without radial injection. Journal of Sound and Vibration 547, pages 117513.
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Adam Martowicz, Jakub Roemer, Paweł Zdziebko, Grzegorz Żywica, Paweł Bagiński & Artur Andrearczyk. (2022) A Novel Measurement Approach to Experimentally Determine the Thermomechanical Properties of a Gas Foil Bearing Using a Specialized Sensing Foil Made of Inconel Alloy. Materials 16:1, pages 145.
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Yan Zhang & Shuhong Xiao. (2022) A Simplified Model for Numerical Investigation of Bump-Type Foil Bearings Based on Contact Nonlinearity. Journal of Tribology 144:12.
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M.R. Pattnayak, P. Ganai, R.K. Pandey, J.K. Dutt & M. Fillon. (2022) An overview and assessment on aerodynamic journal bearings with important findings and scope for explorations. Tribology International 174, pages 107778.
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Sebastian von Osmanski & Ilmar F. Santos. (2021) Gas foil bearings with radial injection: Multi-domain stability analysis and unbalance response. Journal of Sound and Vibration 508, pages 116177.
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Farid Al‐Bender. 2021. Air Bearings. Air Bearings 369 402 .
Marcel Mahner, Marcel Bauer & Bernhard Schweizer. (2021) Numerical analyzes and experimental investigations on the fully-coupled thermo-elasto-gasdynamic behavior of air foil journal bearings. Mechanical Systems and Signal Processing 149, pages 107221.
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Christoph Baum, Hartmut Hetzler, Simon Schröders, Tim Leister & Wolfgang Seemann. (2021) A computationally efficient nonlinear foil air bearing model for fully coupled, transient rotor dynamic investigations. Tribology International 153, pages 106434.
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Yongpeng Gu, Gexue Ren & Ming Zhou. (2020) A fully coupled elastohydrodynamic model for static performance analysis of gas foil bearings. Tribology International 147, pages 106297.
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Mihai Arghir & Omar Benchekroun. (2019) A New Structural Bump Foil Model With Application From Start-Up to Full Operating Conditions. Journal of Engineering for Gas Turbines and Power 141:10.
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P. Samanta, N.C. Murmu & M.M. Khonsari. (2019) The evolution of foil bearing technology. Tribology International 135, pages 305-323.
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Mihai Arghir & Omar Benchekroun. (2019) A simplified structural model of bump-type foil bearings based on contact mechanics including gaps and friction. Tribology International 134, pages 129-144.
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Andreas Lehn, Marcel Mahner & Bernhard Schweizer. (2018) Characterization of static air foil thrust bearing performance: an elasto-gasdynamic analysis for aligned, distorted and misaligned operating conditions. Archive of Applied Mechanics 88:5, pages 705-728.
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Marcel Mahner, Pu Li, Andreas Lehn & Bernhard Schweizer. (2018) Numerical and Experimental Investigations on Preload Effects in Air Foil Journal Bearings. Journal of Engineering for Gas Turbines and Power 140:3.
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Wei Zhang, Abbas A. Alahyari & Louis Chiappetta. (2017) A Fully Coupled Fluid–Structure Interaction Model for Foil Gas Bearings. Journal of Engineering for Gas Turbines and Power 139:2.
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Andreas Lehn, Marcel Mahner & Bernhard Schweizer. (2016) Elasto-gasdynamic modeling of air foil thrust bearings with a two-dimensional shell model for top and bump foil. Tribology International 100, pages 48-59.
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Jon S. Larsen, Asger J. T. Hansen & Ilmar F. Santos. (2014) Experimental and theoretical analysis of a rigid rotor supported by air foil bearings. Mechanics & Industry 16:1, pages 106.
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Leonidas I. Paouris, Dimitrios A. Bompos & Pantelis G. Nikolakopoulos. (2014) Simulation of Static Performance of Air Foil Bearings Using Coupled Finite Element and Computational Fluid Dynamics Techniques. Journal of Engineering for Gas Turbines and Power 136:2.
Crossref
Fangcheng Xu, Zhansheng Liu, Guanghui Zhang & Zhixuan Cao. (2012) Effects of shear stiffness in top foil structure on gas foil bearing performance based on thick plate theory. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 227:7, pages 761-776.
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Hamza Bensouilah, Mustapha Lahmar & Benyebka Bou‐Saïd. (2012) Elasto‐aerodynamic lubrication analysis of a self‐acting air foil journal bearing. Lubrication Science 24:3, pages 95-128.
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Hou Yu, Chen Shuangtao, Chen Rugang, Zhang Qiaoyu & Zhao Hongli. (2011) Numerical study on foil journal bearings with protuberant foil structure. Tribology International 44:9, pages 1061-1070.
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Samuel A. Howard & Luis San Andrés. (2011) A New Analysis Tool Assessment for Rotordynamic Modeling of Gas Foil Bearings. Journal of Engineering for Gas Turbines and Power 133:2.
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Kai FENG & Shigehiko KANEKO. (2009) Calculation of Dynamic Coefficients for Multiwound Foil Bearings. Journal of System Design and Dynamics 3:5, pages 841-852.
Crossref
Luis San Andrés & Tae Ho Kim. (2009) Analysis of gas foil bearings integrating FE top foil models. Tribology International 42:1, pages 111-120.
Crossref
Dong-Hyun Lee, Young-Cheol Kim & Kyung-Woong Kim. (2008) The Static Performance Analysis of Foil Journal Bearings Considering Three-Dimensional Shape of the Foil Structure. Journal of Tribology 130:3.
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Tae Ho Kim & Luis San Andrés. (2008) Heavily Loaded Gas Foil Bearings: A Model Anchored to Test Data. Journal of Engineering for Gas Turbines and Power 130:1.
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B. Bou-Saïd, G. Grau & I. Iordanoff. (2008) On Nonlinear Rotor Dynamic Effects of Aerodynamic Bearings With Simple Flexible Rotors. Journal of Engineering for Gas Turbines and Power 130:1.
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Sébastien Le Lez, Mihaï Arghir & Jean Frene. (2007) A New Bump-Type Foil Bearing Structure Analytical Model. Journal of Engineering for Gas Turbines and Power 129:4, pages 1047-1057.
Crossref
Kai FENG & Shigehiko KANEKO. (2007) A Numerical Calculation Model of Multi Wound Foil Bearing with the Effect of Foil Local Deformation. Journal of System Design and Dynamics 1:3, pages 648-659.
Crossref
P Vleugels, T Waumans, J Peirs, F Al-Bender & D Reynaerts. (2006) High-speed bearings for micro gas turbines: stability analysis of foil bearings. Journal of Micromechanics and Microengineering 16:9, pages S282-S289.
Crossref
J.-P. Peng & M. Carpino. (1997) Finite Element Approach to the Prediction of Foil Bearing Rotor Dynamic Coefficients. Journal of Tribology 119:1, pages 85-90.
Crossref

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