Version 1
: Received: 13 November 2023 / Approved: 14 November 2023 / Online: 14 November 2023 (09:55:23 CET)
Version 2
: Received: 14 November 2023 / Approved: 15 November 2023 / Online: 15 November 2023 (09:28:19 CET)
Version 3
: Received: 21 November 2023 / Approved: 22 November 2023 / Online: 22 November 2023 (06:38:30 CET)
Version 4
: Received: 16 February 2024 / Approved: 16 February 2024 / Online: 19 February 2024 (10:15:44 CET)
Version 5
: Received: 13 March 2024 / Approved: 13 March 2024 / Online: 14 March 2024 (00:08:35 CET)
How to cite:
Bergami, A.V. Design of Additional Dissipative Structures for Seismic Retro-fitting of Existing Buildings. Preprints2023, 2023110901. https://doi.org/10.20944/preprints202311.0901.v5
Bergami, A.V. Design of Additional Dissipative Structures for Seismic Retro-fitting of Existing Buildings. Preprints 2023, 2023110901. https://doi.org/10.20944/preprints202311.0901.v5
Bergami, A.V. Design of Additional Dissipative Structures for Seismic Retro-fitting of Existing Buildings. Preprints2023, 2023110901. https://doi.org/10.20944/preprints202311.0901.v5
APA Style
Bergami, A.V. (2024). Design of Additional Dissipative Structures for Seismic Retro-fitting of Existing Buildings. Preprints. https://doi.org/10.20944/preprints202311.0901.v5
Chicago/Turabian Style
Bergami, A.V. 2024 "Design of Additional Dissipative Structures for Seismic Retro-fitting of Existing Buildings" Preprints. https://doi.org/10.20944/preprints202311.0901.v5
Abstract
This paper presents an innovative approach for improving the seismic protection of existing structures by introducing an additional dissipative structure (ADS). The seismic energy impacting the building can be dissipated through the contribution provided by the ADS, thereby reducing the need for the existing building to ensure its seismic capacity. This retrofitting technique is well-suited for structures facing architectural restrictions or challenging-to-update elements. It can help address foundation issues by applying loads to new external components. This paper describes the design of the ADS and proposes a displacement-based design procedure. The design process involves a non-linear static analysis and a simple procedure that must be iteratively repeated until the retrofitting target is achieved. This approach is simple and computationally efficient and can also be used for complex and irregular structures. Such structures are frequently encountered, and existing structures often exhibit unusual geometries and materials requiring extensive numerical modeling. The efficacy of the technique was evaluated using the case studiy of a school building located in central Italy. The results of numerical analyses indicated that owing to the ADS’s contribution, the seismic capacity of both buildings was enhanced, addressing the challenges associated with complex foundation interventions.
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
