Experimental and numerical study of structural damping in a beam with bolted splice connection

The objective of this research is to develop a numerical model of one widely used bolted beam splice connection that dissipates energy through structural damping. The reference experimental setup is carefully designed to obtain the highly nonlinear dynamic response due to the suddenly released load....

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Bibliographic Details
Published in:Thin-walled structures 2023-05, Vol.186, p.110661, Article 110661
Main Authors: Mijatović, O., Borković, A., Guzijan-Dilber, M., Mišković, Z., Salatić, R., Mandić, R., Golubović-Bugarski, V.
Format: Article
Language:English
Subjects:
Bolted beam splice connection
Frictional contact
Nonlinear dynamic analysis
Structural damping
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Summary:The objective of this research is to develop a numerical model of one widely used bolted beam splice connection that dissipates energy through structural damping. The reference experimental setup is carefully designed to obtain the highly nonlinear dynamic response due to the suddenly released load. The fact that the monolithic beam with welded connection has a linear response is utilized for the initial calibration of the numerical and experimental models. Then, the numerical model of bolted beam splice connection is verified and adopted through an iterative process. The influences of time and spatial integration, bolt load application, element type, contact formulation, bulk viscosity, and mass scaling are discussed. A special attention is given to the load application and load release functions. After the verification, the Abaqus/Explicit numerical model is validated through the comparison with experimental data, where an appropriate friction coefficient is adopted. It is demonstrated that the nonlinear structural damping occurs due to the complex micro slip behavior at the contact interface. •A typical bolted beam splice connection is analyzed experimentally and numerically.•The experimentally obtained dynamic response is highly nonlinear.•The Abaqus/Explicit numerical model is carefully calibrated and verified.•The adopted numerical model is validated via comparison with the experimental one.•Structural damping is a nonlinear phenomenon caused by micro-slipping.
ISSN:0263-8231
1879-3223
DOI:10.1016/j.tws.2023.110661