Computational Modeling of U-Shaped Seismic Dampers for Structural Damage Mitigation

cumulative equivalent plastic strain; engineering design; numerical modeling; seismic dampers; seismic hazard mitigation; Computational modelling; Cumulative equivalent plastic strain; Energy; Engineering design; Equivalent plastic strain; Hazard mitigations; Seismic dampers; Seismic hazard mitigation; Seismic hazards; U-shaped; Materials Science (all); Instrumentation; Engineering (all); Process Chemistry and Technology; Computer Science Applications; Fluid Flow and Transfer Processes

Abstract :

[en] U-shaped seismic dampers, passive metallic devices that dissipate energy by cyclic plastic deformation, are designed to mitigate the effects of seismic loads on structures. This study focuses on the development of an advanced computational model of a U-shaped damper, chosen for its unique design of variable thickness and width, which contributes to its superior performance. The simulation uses nonlinear finite element analysis and a bilinear hardening model calibrated to the actual stress–strain curve of the low-carbon steel. To ensure accuracy, a rigorous mesh convergence analysis is performed to quantify numerical prediction errors and establish a model suitable for predicting local deformation phenomena, including strain and stress fields, throughout the displacement-based loading protocol. Mesh sensitivity analysis, performed by examining the equivalent stress and cumulative plastic strain, derives the damper hysteresis curve and confirms the convergence criteria of the mesh within the experimentally observed plastic response range of the material. The resulting computational model is a novel contribution that provides reliable predictions of local inhomogeneous deformation and energy dissipation, essential for optimizing damper design and performance through more sophisticated damage-fatigue models that guarantee the lifetime of a damper.

Disciplines :

Mechanical engineering

Author, co-author :

Tuninetti, Victor ; Université de Liège - ULiège > Département ArGEnCo ; Department of Mechanical Engineering, Universidad de La Frontera, Temuco, Chile

Gómez, Álvaro; Master Program in Engineering Sciences, Faculty of Engineering, Universidad de La Frontera, Temuco, Chile

Bustos, Flavia ; Doctoral Program in Engineering Systems, Faculty of Engineering, University of Talca, Curicó, Chile

Oñate, Angelo ; Department of Materials Engineering (DIMAT), Faculty of Engineering, Universidad de Concepción, Concepción, Chile

Hinojosa, Jorge ; Department of Industrial Technologies, University of Talca, Curicó, Chile

Gallo, Calogero ; Université de Liège - ULiège > Urban and Environmental Engineering

Habraken, Anne ; Université de Liège - ULiège > Département ArGEnCo > Département Argenco : Secteur MS2F

Duchene, Laurent ; Université de Liège - ULiège > Département ArGEnCo > Analyse multi-échelles dans le domaine des matériaux et structures du génie civil

Language :

English

Title :

Computational Modeling of U-Shaped Seismic Dampers for Structural Damage Mitigation

Publication date :

November 2024

Journal title :

Applied sciences (Basel, Switzerland)

ISSN :

2076-3417

eISSN :

2076-3417

Publisher :

MDPI

Volume :

Issue :

Pages :

10238

Peer reviewed :

Peer reviewed

Additional URL :

https://www.mdpi.com/2076-3417/14/22/10238/pdf

Funders :

ULiège - University of Liège
ANID - Agencia Nacional de Investigación y Desarrollo

Funding text :

This research was partially funded by the WBI/AGCID RI02 (DIE23-0001) bilateral project between the University of Li\u00E8ge and the Universidad de La Frontera. F. Bustos thanks the Agencia Nacional de Investigaci\u00F3n y Desarrollo (ANID) for the Ph.D. scholarship \u201CBeca Doctorado Nacional/2020-21200973\u201D.

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since 10 April 2026

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