Retrofit of seismically designed steel-concrete composite structures to withstand progressive collapse

Georgios Papavasileiou; Dimos C. Charmpis

Retrofit of seismically designed steel-concrete composite structures to withstand progressive collapse

Georgios Papavasileiou
, Dimos C. Charmpis

UHI Inverness

Producción científica: Conference contribution

Resumen

This work addresses the need for buildings to sustain structural damage without excessive propagation to the rest of the elements. Four element retrofit strategies are proposed and assessed on their effectiveness in increasing the progressive collapse resistance of seismically designed steel-concrete composite buildings. The cost-effectiveness of the designs determined by the proposed strategies is evaluated by comparison against the solutions defined using structural design optimization. The results yielded are indicative of the trade-off between total retrofit cost and performance under the considered damage scenario.

Idioma original	English
Título de la publicación alojada	Proceedings of the 2nd International Conference on Recent Advances in Nonlinear Modelling – Design and Rehabilitation of Structures
Páginas	211-218
Número de páginas	8
Estado	Published - 2017
Evento	2nd International Conference on Recent Advances in Nonlinear Modelling – Design and Rehabilitation of Structures - Coimbra, Portugal Duración: 21 nov 2017 → 22 nov 2017

Conference

Conference	2nd International Conference on Recent Advances in Nonlinear Modelling – Design and Rehabilitation of Structures
País/Territorio	Portugal
Ciudad	Coimbra
Período	21/11/17 → 22/11/17

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@inproceedings{b1ac05a9c8b246a59ea8ccc38328f6ec,

title = "Retrofit of seismically designed steel-concrete composite structures to withstand progressive collapse",

abstract = "This work addresses the need for buildings to sustain structural damage without excessive propagation to the rest of the elements. Four element retrofit strategies are proposed and assessed on their effectiveness in increasing the progressive collapse resistance of seismically designed steel-concrete composite buildings. The cost-effectiveness of the designs determined by the proposed strategies is evaluated by comparison against the solutions defined using structural design optimization. The results yielded are indicative of the trade-off between total retrofit cost and performance under the considered damage scenario.",

keywords = "Progressive collapse, Steel-concrete composite structures, Retrofit",

author = "Georgios Papavasileiou and Charmpis, \{Dimos C.\}",

year = "2017",

language = "English",

pages = "211--218",

booktitle = "Proceedings of the 2nd International Conference on Recent Advances in Nonlinear Modelling – Design and Rehabilitation of Structures",

note = "2nd International Conference on Recent Advances in Nonlinear Modelling – Design and Rehabilitation of Structures ; Conference date: 21-11-2017 Through 22-11-2017",

}

Papavasileiou, G & Charmpis, DC 2017, Retrofit of seismically designed steel-concrete composite structures to withstand progressive collapse. En Proceedings of the 2nd International Conference on Recent Advances in Nonlinear Modelling – Design and Rehabilitation of Structures. pp. 211-218, 2nd International Conference on Recent Advances in Nonlinear Modelling – Design and Rehabilitation of Structures, Coimbra, Portugal, 21/11/17.

TY - GEN

T1 - Retrofit of seismically designed steel-concrete composite structures to withstand progressive collapse

AU - Papavasileiou, Georgios

AU - Charmpis, Dimos C.

PY - 2017

Y1 - 2017

N2 - This work addresses the need for buildings to sustain structural damage without excessive propagation to the rest of the elements. Four element retrofit strategies are proposed and assessed on their effectiveness in increasing the progressive collapse resistance of seismically designed steel-concrete composite buildings. The cost-effectiveness of the designs determined by the proposed strategies is evaluated by comparison against the solutions defined using structural design optimization. The results yielded are indicative of the trade-off between total retrofit cost and performance under the considered damage scenario.

AB - This work addresses the need for buildings to sustain structural damage without excessive propagation to the rest of the elements. Four element retrofit strategies are proposed and assessed on their effectiveness in increasing the progressive collapse resistance of seismically designed steel-concrete composite buildings. The cost-effectiveness of the designs determined by the proposed strategies is evaluated by comparison against the solutions defined using structural design optimization. The results yielded are indicative of the trade-off between total retrofit cost and performance under the considered damage scenario.

KW - Progressive collapse

KW - Steel-concrete composite structures

KW - Retrofit

M3 - Conference contribution

SP - 211

EP - 218

BT - Proceedings of the 2nd International Conference on Recent Advances in Nonlinear Modelling – Design and Rehabilitation of Structures

T2 - 2nd International Conference on Recent Advances in Nonlinear Modelling – Design and Rehabilitation of Structures

Y2 - 21 November 2017 through 22 November 2017

ER -

Retrofit of seismically designed steel-concrete composite structures to withstand progressive collapse

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