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Bibliografía
Bibliografía
Ansdale, R.F.; Lockley, D.J. (1968). The Wankel RC Engine Design and Performance. London Iliffe
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Buendía, R. (2001). Optimización de un Generador de Pulsaciones de Presión. Proyecto Final de
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Colbourne, J.R. (1975). Gear Shape and Theoretical Flow Rate in Internal Gear Pumps. Transactions of
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Colbourne, J.R. (1976). Reduction of the Contact Stress in Internal Gear Pumps. ASME Transactions,
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Dasgupta, K.; Mukherjee, A.; Maiti, R. (1996). Modeling and Dynamics of Epitrochoid Generated
Orbital Rotary Piston LSHT Hydraulic Motor: a BondGraph Approach. Journal of Manufacturing
Science and Engineering, Transactions of the ASME, Vol. 118, pp 6.
Dasgupta, K.; Mukherjee, A.; Maiti, R. (1996). Theorical and Experimental Studies of the Steady State
Performance of an Orbital Rotor Low-Speed High-Torque Hydraulic Motor. Proceedings of the
Institution of Mechanical Engineers, Part A: Journal of Power and Energy, Vol. 210, pp 6.
Davidson, L.C. (1977). The Internal Impedance of Centrifugal and Positive Displacement Pumps.
Conference on Noise and Fluids Engineering (ASME), Atlanta, Georgia, pp 225-231.
Edge, K.A. (1980). The Theoretical Prediction of the Impedance of Positive Displacement Pumps.
Seminar on Quieter Oil Hydraulics, Institution of Mechanical Engineers, pp 95-103.
Edge, K.A. (1983). The Use of Plane Wave Theory in the Modelling of Pressure Ripples in Hydraulic
Systems. School of Engineering, University of Bath Trans Inst M C, pp 8.
Edge, K.A.; Johnston, D.N. (1986). A New Method for Evaluating the Fluid Borne Noise Characteristics
of Positive Displacement Pumps. Seventh International Symposium on Fluid Power, Bath, pp 253-260.
Edge, K.A.; Johnston, D.N. (1990). The 'Secondary Source' Method for the Measurement of Pump
Pressure Ripple Characteristics. Part 1: Description of Method. Proc Institution of Mechanical
Engineers Journal of Power and Energy, Vol. 204, pp 8.
Edge, K;A.; Johnston, D.N. (1990). The 'Secondary Source' Method for the Measurement of Pump
Pressure Ripple Characteristics. Part 2: Experimental Results. Proc Institution of Mechanical
Engineers Journal of Power and Energy, Vol. 204, pp 6.
Fabiani, M.; Mancò, S.; Nervegna, N.; Rundo, M. (1999). Modelling and Simulation of Gerotor Gearing
in Lubricating Oil Pumps. Society of Automotive Engineers. International Congress and Exposition,
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Gamez-Montero, P.J.; Codina, E. (2004). Estudio Teórico-Experimental de una Bomba Gerotor. XVI
Congreso Nacional de Ingeniería Mecánica, pp 9. (pendiente de publicación)
Gamez-Montero, P.J.; Codina, E. (2004) Poster: Performance Analysis of a Gerotor Pump. 3rd Fluid
Power Net International – PhD Symposium Terrassa.
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Gamez-Montero, P.J.; Codina, E. (2003). Contact Stress in a Gerotor Pump. 2003 ASME International
Mechanical Engineering Congress and R&D Expo - IMECE2003-43233, pp 7.
Gamez-Montero, P.J.; Codina, E. (2003). Preliminary Approach to the Contact Stress in a Gerotor
Pump. 1st International Conference on Computational Method in Fluid Power Technology - SIM2003,
pp 303-314.
Gamez-Montero, P.J.; Codina, E. (2002) Flow Ripple in a Gerotor Pump. SAE Technical Paper Series N
2002-01-1375 / NCFP 102-7.3. pp 11.
Gamez-Montero, P.J.; Codina, E. (2002). Fluid Borne Noise Characteristics of a Gerotor Pump:
Measurement and Prediction. 2nd Fluid Power Net International – PhD Symposium Modena, pp 9.
Gamez-Montero, P.J.; Codina, E. (2000). Caracterización Fluidodinámica de una Bomba
Oleohidràulica de Engranajes Internos Generados por Perfiles Trocoidales. XIV Congreso Nacional
de Ingeniería Mecánica, pp 1281-1286.
Gamez-Montero, P.J.; Codina, E. (2000) Fluid Dynamic Behaviour of an Internal Rotary Pump
Generated by Trochoidal Profiles. 1st Fluid Power Net International – PhD Symposium Hamburg, pp
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Hartenberg, R.S.; Denavit, J. (1964) Kinematic Synthesis of Linkages. M.Graw-Hill, New York.
Johnston, D.N.; Edge, K.A. (1991) In-situ Measurement of the Wavespeed and Bulk Modulus in
Hydraulic Lines. Institution of Mechanical Engineers, pp. 12.
Johnston, D.N.; Edge, K.A. (1991) A Test Method for Measurement of Pump Fluid-Borne Noise
Characteristics. SAE 911761, pp. 10.
Johnston, D.N.; Edge, K.A. (1996). Measurement of Positive Displacement Pump Flow Ripple and
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Kojima, E. (1) A New Method for Experimental Determination of Pumps Fluid Borne Noise
Characteristics. Circuit, Component and System Design. Edited by Burrows&Edge. Fifth Bath Int.
Fluid Power Workshop. ISBN 0-96380-139-0.
Litvin, F. (1994) Gear Geometry and Applied Theory. Prentice may, Inc.
Maiti, R. (1993) Active Contact Problems in Epitrochoid Generated ‘Floating Axis’ Orbital Rotary
Piston Machines. Journal of Engineering for Industry, Transactions of the ASME, Vol. 115, pp 337340.
Maiti, R. (1993). Torque Characteristics of Epitrochoid Generated Orbital Rotary Piston Type
Hydraulic Motors. Mechanism Machine Theory, Vol. 28, pp 225-231.
Mancó, S.; Nervegna, N.; Rundo, M.; Armenio, G. (1998). Gerotor Lubricating Oil Pump for IC
Engines. SAE Technical Paper Series International Fall Fuels and Lubricants Meeting and Exposition.
1998. pp 20.
Mancò, G.; Mancò, S.; Rundo, M.; Nervegna, N. (2000). Computerized Generation of Novel Gearings
for Internal Combustion Engines Lubricating Pumps. International Journal of Fluid Power, pp 10.
Mancò, G.; Nervegna, N.; Rundo, M. (2002). A Contribution of the Design of Hydraulic Lobe Pumps.
International Journal of Fluid Power, pp 10.
Mimmi, G.; Pennacchi, P. (1997). Rotor Design and Optimization in Internal Lobe Pumps. Applied
Mechanics Reviews, pp 9.
Mimmi, G.; Pennacchi, P.; Savi, C. (1996). Internal Lobe Pump Design. Proc. Mechanics in Design
CSME Forum 1996, pp 9.
Ortega de Mingo, O. (1999). Diseño, Construcción y Puesta a Punto de un Banco de Ensayos de
Bombas Gerotor. Proyecto Final de Carrera. Universitat Politència de Catalunya.
Ortwig, H.; Goebbels, K. (1999). Noise Reduction in Hydraulic Circuits. SICFP’99. Tampere, pp 12.
Perng, C. (1997) Analysis of Flow Dynamics in Transmission Oil Pump. ASME Fluid Engineering
Division Summer Meeting, FEDSM97-3360, pp. 1-7.
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Robinson, F.J.; Lyon, J.R. (1976). An Analysis of Epitrochoidal Profiles with Constant Difference
Modification Suitable for Rotary Expanders and Pumps. Journal of Engineering for Industry ASME
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Saegusa, Y.; Urashima, K. (1984). Development of Oil-Pumps Rotors with a Trochoidal Tooth Shape.
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Stryczek, J. (1990). Cycloidal Gears in Design of Gear Pumps and Motors. Archiwum Budowy Maszyn,
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Stryczek, J. (1996). Hydraulic Machines with Cycloidal Gearing. Archiwum Budowy Maszyn, 43, pp
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Viersma, T.J. (1980). Analysis, Synthesis and Design of Hydraulic Servosystems and Pipeline. Elsevier,
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Weddfelt, K. (1991). Measurement of Pump Source Characteristics by the Two Microphone Method. II
Int. Conf. on Fluid Power, Tampere.
FBN2 Analysis Package for Secondary Source Test Method for Hydraulic Components: User's Guide
and Reference Manual, Version 4.00. University of Bath, 1999
Normativa ISO CD 10767-1. Hydraulic Fluid Power – Methods for Determining Pressure Ripple Levels
generated in Systems and Components – Part 1. Precision Method Pump, November 1992
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