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Predicting Component Failure in Hydraulic Systems by Dynamic Simulation
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English
Abstract
Simulating the performance of components before manufacturing can increase the efficiency of the design and manufacturing process by identifying areas of potential weakness. There are three principle areas to assess in checking the integrity of a design, static loading, fatigue loading and dynamic loading. Calculation of the first two are commonly used to predict life. Dynamic modelling is less commonly used, although it often reveals loading levels in excess of predicted fatigue loads.
This paper investigates such a condition that resulted in plastic deformation of a hydraulic cylinder.
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Authors
Citation
Crookston, I. and Martin, H., "Predicting Component Failure in Hydraulic Systems by Dynamic Simulation," SAE Technical Paper 941770, 1994, https://doi.org/10.4271/941770.Also In
References
- Karnoop, D.C. Rosenberg, R.C. System Dynamics: A Unified Approach John Wiley 1974
- Reynolds, W.E. Wolf, J. TUTSIM Manual, IBM PC Computer Version TUTSIM Products Palo Alto, CA, USA 1988
- Martin, H.R. Effects of Pipes and Hoses on Hydraulic Circuit Noise and Performance National Conference on Fluid Power XXXV Chicago 1981 71 76
- Martin, H.R. McCoy, D. Control of Fluid Power Ellis Horwood J. Wiley 1980
- Martin, H.R. Introduction to Simulation Using TUTSIM 1989 Department of Mechanical Engineering, University of Waterloo Waterloo, Ontario, N2L 3G1 Canada