论文信息 - Interior mode selection in the Craig Bampton reduction technique based on an energy approach

Interior mode selection in the Craig Bampton reduction technique based on an energy approach

Finite element analysis is adopted in several engineering fields as such structural dynamics and multibody system dynamics. Fine meshes are usually employed to guarantee model accuracy. As a consequence, models have typically very large dimensions, and hence they are difficult to handle and often prone to numerical ill conditioning. Model reduction techniques, such as the Craig Bampton method, can be extremely useful to minimize model dimensions. This paper introduces an effective ranking method for the selection of CB interior modes suitable for vibrating systems under single harmonic excitation. The goal is to keep model dimensions to a minimum while preserving system forced response accuracy. The ranking of the interior modes is carried out using coefficients based on energetic considerations and taking into account the frequency and the shape of the force exciting the system. The aforementioned coefficients provide a measure of the contribution of each interior mode to the computation of the mean mechanical energy stored by the system in a period of excitation. The method is then applied to the model of a vibratory feeder. The results shows that the proposed method provides a very effective selection of the most important interior modes and therefore allows outperforming current state-of-the-art techniques.

[1] Dario Richiedei,et al. A Constrained Convex Approach to Modal Design Optimization of Vibrating Systems , 2011 .

[2] M. Bampton,et al. Coupling of substructures for dynamic analyses. , 1968 .

[3] Roberto Caracciolo,et al. Design and experimental validation of piecewise-linear state observers for flexible link mechanisms , 2006 .

[4] Alessandro Gasparetto,et al. Design and implementation of an ERLS-based 3-D dynamic formulation for flexible-link robots , 2013 .

[5] Dan Givoli,et al. Which are the important modes of a subsystem? , 2004 .

[6] Dario Richiedei,et al. Eigenstructure assignment in undamped vibrating systems: A convex-constrained modification method based on receptances , 2012 .

[7] Alberto Trevisani,et al. A Ranking Method for the Selection of the Interior Modes of Reduced Order Resonant System Models , 2014 .

[8] Daniel C. Kammer,et al. Selection of Component Modes for Craig-Bampton Substructure Representations , 1995 .

[9] Klaus Zeman,et al. Model Reduction of a Parametrically Excited Drivetrain , 2012 .

[10] Zhaojun Bai,et al. The important modes of subsystems: A moment‐matching approach , 2007 .

[11] R. Hintz. Analytical Methods in Component Modal Synthesis , 1975 .

[12] Dan Givoli,et al. Optimal modal reduction of vibrating substructures , 2003 .