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7 - Gas (Air) Lubricated Bearings

Published online by Cambridge University Press:  05 March 2016

Harish Hirani
Harish Hirani
Affiliation:
Indian Institute of Technology, Delhi
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Fundamentals of Engineering Tribology with Applications , pp. 297 - 325
Publisher: Cambridge University Press
Print publication year: 2016

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References

Booser, E. R. 1984. Handbook of Lubrication, Theory and Practice of Tribology. Vol II. Theory and Design, CRC Press.Google Scholar
Brunner, R. K. and Harker, J. M. 1959. ‘A Gas Film Lubrication Study Part III: Experimental Investigation of Pivoted Slider Bearings.’ IBM Journal of Research and Development. Vol. 8: pp. 260–274.Google Scholar
Burgdorfer, A. 1959. ‘The Influence of the Molecular Mean Free Path on the Performance of Hydrodynamic Gas Lubricated Bearings.’ ASME J. Basic Eng. Vol. 81: pp. 94–100.Google Scholar
Ding-Wen, Yang. Cheng-Hsien, Chen. Yuan Kang. Ren-Ming Hwang. Shyh-ShyongShyr. August 2009. ‘Influence of orifices on stability of rotor–aerostatic bearing system.’ Tribology International. Volume 42. Issue 8: Pages 1206–1219.Google Scholar
Grewal, S. S. ‘An investigation of externally pressurised orifice-compensated air journal bearings with particular reference to misalignment and inner orifice variations.’ CNAA PhD thesis. Liverpool Polytechnic.
Gross, W. 1980. Fluid Film Lubrication. Wiley Interscience.Google Scholar
Hsia, Y. T. and Domoto, G. A. 1983. ‘An Experimental Investigation of Molecular Rarefaction Effects in Gas Lubricated Bearings at Ultra-low Clearances.’ ASME J. Lubr. Technol. Vol. 105: pp. 120–130.CrossRefGoogle Scholar
Huang, P.Niu, R. J. and Hu, H. H. 2008. ‘A New Numerical Method to Solve Modified Reynolds’ Equation for Magnetic Head/Disk Working in Ultra Thin Gas Films,’ Sci. China, Ser. E: Technol. Sci. Vol. 51. No. 4: pp. 337–480.CrossRefGoogle Scholar
Krzysztof, C. March 1994. ‘Stability of high stiffness gas journal bearings.’ Wear. Volume 172. Issue 2:, Pages 175–183.Google Scholar
Maxwell, J. 1879. ‘On Stress in Rarefied Gases Arising from In-equalities of Temperature.Philos. Trans. R. Soc. London. Vol. 170:, pp. 231–261.Google Scholar
Meng, Yonggang. 2014. ‘Physics and Chemistry of Micro-Nanotribology- Chapter 6 Gas Lubrication in Nano- Gap.’ ASTM International., pp.96–115.Google Scholar
Mitsuya, Y. 1993. ‘Modified Reynolds’ Equation for Ultra-thin Film Gas Lubrication Using 1.5-order Slip–Flow Model and Considering Surface Accommodation Coefficient.’ ASME J. Tbol. Vol. 115: pp. 289–294.Google Scholar
Neale, M. J. 2001. The Tribology Handbook. Second Edition. Butterworth Heinemann Press.Google Scholar
Pande, S. S. and Somasundaram, S. 1981. ‘Analysis of an aerostatic journal bearing with a position-sensing restrictor.’ Wear, 70: 141–154.CrossRefGoogle Scholar
Rangwala, A. S. 2006. ‘Reciprocating Machinery Dynamics.’ New Age International Publisher. New Delhi.Google Scholar
Szeri, A. Z. 1980. ‘Tribology.’ Friction, Lubrication and Wear. Hemisphere. New York.

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  • Gas (Air) Lubricated Bearings
  • Harish Hirani, Indian Institute of Technology, Delhi
  • Book: Fundamentals of Engineering Tribology with Applications
  • Online publication: 05 March 2016
  • Chapter DOI: https://doi.org/10.1017/CBO9781107479975.008
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  • Gas (Air) Lubricated Bearings
  • Harish Hirani, Indian Institute of Technology, Delhi
  • Book: Fundamentals of Engineering Tribology with Applications
  • Online publication: 05 March 2016
  • Chapter DOI: https://doi.org/10.1017/CBO9781107479975.008
Available formats
×

Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • Gas (Air) Lubricated Bearings
  • Harish Hirani, Indian Institute of Technology, Delhi
  • Book: Fundamentals of Engineering Tribology with Applications
  • Online publication: 05 March 2016
  • Chapter DOI: https://doi.org/10.1017/CBO9781107479975.008
Available formats
×