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Tribology Transactions Volume 54, 2011 - Issue 4
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Original Articles

Comparative Experimental and Numerical Analysis of Flow and Pressure Fields Inside Deep and Shallow Pockets for a Hydrostatic Bearing

F. E. Horvat Department of Mechanical Engineering, Univeristy of Akron, Akron, Ohio, 44325
&
M. J. Braun Department of Mechanical Engineering, Univeristy of Akron, Akron, Ohio, 44325
Pages 548-567 | Received 22 Nov 2010, Accepted 23 Mar 2011, Published online: 05 Jul 2011

Citations (16)

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Read on this site (1)

Feng Shen, Cong-Lian Chen & Zhao-Miao Liu. (2014) Effect of Pocket Geometry on the Performance of a Circular Thrust Pad Hydrostatic Bearing in Machine Tools. Tribology Transactions 57:4, pages 700-714.
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Articles from other publishers (15)

Michal Michalec, Martin Ondra, Martin Svoboda, Jiří Chmelík, Petr Zeman, Petr Svoboda & Robert L. Jackson. (2023) A Novel Geometry Optimization Approach for Multi-Recess Hydrostatic Bearing Pad Operating in Static and low-Speed Conditions Using CFD Simulation. Tribology Letters 71:2.
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Yingjie Wang, Hao Wu & Youmin Rong. (2022) Analysis of Hydrostatic Bearings Based on a Unstructured Meshing Scheme and Turbulence Model. Machines 10:11, pages 1072.
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Youyun Shang, Kai Cheng, Hui Ding & Shijin Chen. (2022) Design of a Hydrostatic Spindle and Its Simulation Analysis with the Application to a High Precision Internal Grinding Machine. Machines 10:2, pages 127.
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P. Chellapandi & C. Lakhmana Rao. (2022) Development and application of a numerical analysis method for investigating hydro static and hydrodynamic responses of pocket bearing rotor systems. Journal of Fluids and Structures 109, pages 103484.
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J. Bouyer, M. Wodtke & M. Fillon. (2022) Experimental research on a hydrodynamic thrust bearing with hydrostatic lift pockets: Influence of lubrication modes on bearing performance. Tribology International 165, pages 107253.
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Michal Michalec, Petr Svoboda, Ivan Křupka & Martin Hartl. (2021) A review of the design and optimization of large-scale hydrostatic bearing systems. Engineering Science and Technology, an International Journal 24:4, pages 936-958.
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Zhifeng Liu, Yumo Wang, Ligang Cai, Yongsheng Zhao, Qiang Cheng & Xiangmin Dong. (2017) A review of hydrostatic bearing system: Researches and applications. Advances in Mechanical Engineering 9:10, pages 168781401773053.
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V. Strubel, S. Simoens, P. Vergne, N. Fillot, F. Ville, M. El Hajem, N. Devaux, A. Mondelin & Y. Maheo. (2017) Fluorescence Tracking and µ-PIV of Individual Particles and Lubricant Flow in and Around Lubricated Point Contacts. Tribology Letters 65:3.
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Maurice L. AdamsJr.Jr.. 2017. Rotating Machinery Research and Development Test Rigs. Rotating Machinery Research and Development Test Rigs 201 210 .
Alejandro Cerda Varela, Asier Bengoechea García & Ilmar Ferreira Santos. (2017) Modelling of LEG tilting pad journal bearings with active lubrication. Tribology International 107, pages 250-263.
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Faiza Ghezali, A. Bouzidane & M. Thomas. (2016) 3D Numerical investigation of pressure field of an orifice compensated hydrostatic bearing. Mechanics & Industry 18:1, pages 101.
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Alejandro Cerda Varela & Ilmar F Santos. (2016) Validity of the modified Reynolds equation for incompressible active lubrication. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 230:12, pages 1490-1502.
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Fabian G Pierart & Ilmar F Santos. (2016) Adjustable hybrid gas bearing – Influence of piezoelectrically adjusted injection on damping factors and natural frequencies of a flexible rotor operating under critical speeds. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 230:10, pages 1209-1220.
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SMB Albahrani, D Philippon, P Vergne & JM Bluet. (2015) A review of in situ methodologies for studying elastohydrodynamic lubrication . Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 230:1, pages 86-110.
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Fabian G Pierart & Ilmar F Santos. (2015) Steady state characteristics of an adjustable hybrid gas bearing – Computational fluid dynamics, modified Reynolds equation and experimental validation. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 229:7, pages 807-822.
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