Impact hammer-based analysis of nonlinear effects in bolted lap joint
Impact hammer-based analysis of nonlinear effects in bolted lap joint
This work presents an experimental investigation into the dynamic behavior of a bolted joint beam configuration. The impact hammer is chosen as an alternative to classical harmonic excitation methods. The structural responses are explored for a range of the joint tightening toques and various levels of impulse hammer excitations. A symmetric beam assembly made of two nominally identical steel beams is studied. Symmetric modes are found to be sensitive to the test parameters. For given torque, impact-based varying joint loading conditions are used to induce the nonlinear joint effects. A linear data processing strategy is used to observe the nonlinear behavior indirectly. The dynamic joint behavior is described in the form of the modal frequency-damping ratio performance maps represented by the two-parametric approximating quadratic response surface models. This model maps the joint conditions on the corresponding dynamic characteristics of interest and it will serve as a basis for the parametric linear joint model development.
789-801
KU Leuven - Departement Werktuigkunde
Titurus, B.
71f65324-d414-47a4-8bca-ef61fc9641bc
Yuan, J.
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Scarpa, F.
684472c3-1a28-478a-a388-5fd896986c1d
Patsias, S.
e7e4a982-00c2-4025-ba71-32c101489b7c
Pattison, S.
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21 September 2016
Titurus, B.
71f65324-d414-47a4-8bca-ef61fc9641bc
Yuan, J.
4bcf9ce8-3af4-4009-9cd0-067521894797
Scarpa, F.
684472c3-1a28-478a-a388-5fd896986c1d
Patsias, S.
e7e4a982-00c2-4025-ba71-32c101489b7c
Pattison, S.
0f66dff0-1b43-4a82-b5f9-47de728ae779
Titurus, B., Yuan, J., Scarpa, F., Patsias, S. and Pattison, S.
(2016)
Impact hammer-based analysis of nonlinear effects in bolted lap joint.
In Proceedings of the ISMA 2016 International Conference on Noise and Vibration Engineering: Impact hammer-based analysis of nonlinear effects in bolted lap joint.
KU Leuven - Departement Werktuigkunde.
.
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Conference or Workshop Item
(Paper)
Abstract
This work presents an experimental investigation into the dynamic behavior of a bolted joint beam configuration. The impact hammer is chosen as an alternative to classical harmonic excitation methods. The structural responses are explored for a range of the joint tightening toques and various levels of impulse hammer excitations. A symmetric beam assembly made of two nominally identical steel beams is studied. Symmetric modes are found to be sensitive to the test parameters. For given torque, impact-based varying joint loading conditions are used to induce the nonlinear joint effects. A linear data processing strategy is used to observe the nonlinear behavior indirectly. The dynamic joint behavior is described in the form of the modal frequency-damping ratio performance maps represented by the two-parametric approximating quadratic response surface models. This model maps the joint conditions on the corresponding dynamic characteristics of interest and it will serve as a basis for the parametric linear joint model development.
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Published date: 21 September 2016
Venue - Dates:
27th International Conference on Noise and Vibration Engineering, Katholieke Universiteit Leuven, Leuven, Belgium, 2016-09-19 - 2016-09-21
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Local EPrints ID: 479199
URI: http://eprints.soton.ac.uk/id/eprint/479199
PURE UUID: 79b141e6-ee81-4053-81cb-e65ae8280660
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Date deposited: 20 Jul 2023 16:44
Last modified: 21 Jul 2023 02:02
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Contributors
Author:
B. Titurus
Author:
J. Yuan
Author:
F. Scarpa
Author:
S. Patsias
Author:
S. Pattison
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