论文信息 - An impulsive receptance technique for the time domain computation of the vibration of a whole aero-engine model with nonlinear bearings

An impulsive receptance technique for the time domain computation of the vibration of a whole aero-engine model with nonlinear bearings

Abstract The direct study of the vibration of real engine structures with nonlinear bearings, particularly aero-engines, has been severely limited by the fact that current nonlinear computational techniques are not well-suited for complex large-order systems. This paper introduces a novel implicit “impulsive receptance method” (IRM) for the time domain analysis of such structures. The IRM's computational efficiency is largely immune to the number of modes used and dependent only on the number of nonlinear elements. This means that, apart from retaining numerical accuracy, a much more physically accurate solution is achievable within a short timeframe. Simulation tests on a realistically sized representative twin-spool aero-engine showed that the new method was around 40 times faster than a conventional implicit integration scheme. Preliminary results for a given rotor unbalance distribution revealed the varying degree of journal lift, orbit size and shape at the example engine's squeeze-film damper bearings, and the effect of end-sealing at these bearings.

Philip Bonello | Pham Minh Hai | P. Bonello | P. M. Hai

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