5 results on '"Prota, Alessandro"'
Search Results
2. Seismic capacity experimental characterization of bracing systems for ceilings trough universal testing machine.
- Author
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Prota, Alessandro
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CEILINGS , *SYSTEM failures , *EFFECT of earthquakes on buildings , *MACHINERY , *EARTHQUAKE resistant design , *SEISMOGRAMS , *COMPUTER simulation - Abstract
Non-structural systems represent the majority of the loss exposure of buildings to earthquakes. Moreover, with respect to the strategic building a critical issue, related to the failure of these systems, is the loss of the operability of the buildings. Within this framework, the evaluation of the seismic performance of light-weight suspended ceiling is the object of this work. Due to the lack of numerical simulation tools, the suspended ceiling's seismic behaviour can not be properly analysed and predicted. For this reason, an experimental characterization of the system is required. A review of the tests performed in previous research projects was presented. Finally, an innovative experimental characterization, performed by using a universal testing machine, to evaluate the capacity of a bracing system for ceilings under two different directions of the horizontal seismic action is presented. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
3. Seismic strengthening of isolated RC framed structures through orthogonal steel exoskeleton: Bidirectional non-linear analyses.
- Author
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Prota, Alessandro, Tartaglia, Roberto, Di Lorenzo, Gianmaria, and Landolfo, Raffaele
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STEEL framing , *NONLINEAR analysis , *STRUCTURAL frames , *ANIMAL exoskeletons , *SOLUTION strengthening , *GROUND motion - Abstract
The catastrophic effects of recent earthquakes around the world have highlighted the vulnerability of civil buildings; in Europe, most of the existing buildings were built after World War II and since they have largely exceeded their useful life, are characterized by a high vulnerability linked both to the durability of the materials and to the lack of seismic provisions in design. The current trend in constructional field is to design interventions aimed at the seismic and energy improvement of these structures jointly, in order to achieve a sustainable and integrated retrofit intervention. To this aim, the use of 2D orthogonal steel exoskeletons for the seismic strengthening represents a suitable solution, providing at the same time an enhancement in thermal insulation, through a 'double-skin' solution. Due to the growing interest in the design of steel exoskeleton interventions, a detailed dynamic characterization of this external strengthening solution is needed. In this framework, the present work, aims to investigate the effectiveness of the investigated strengthening solution by means of bi-directional non-linear dynamic analyses. Extensive numerical analysis was carried out. The selected case-study is an Italian existing pre-1980 s RC frame building located in Mugnano di Napoli (NA, Italy), which is a medium-high seismic hazard site in Italy (peak ground acceleration equal to 0.156 g). Two alternative strengthening solutions were numerically investigated by means of non-linear time-history and incremental dynamic analyses performed applying fifteen bidirectional ground motions on three-dimensional numerical models. The results of the dynamic non-linear analyses allow to quantify more appropriate performance indicators, both in terms of expected demand and overall collapse capacity, useful for the development of optimization strategy and design of exoskeleton system. The results highlighted that both the investigated strengthening scenarios allow to increase the stiffness of the existing building and allow it to meet the current code safety requirements reducing also the residual inter-storey drift. The obtained results are not strictly related to the investigated case study, but can be extended to all the structures retrofitted that follows the presented design procedure. • The catastrophic effects of recent earthquakes around the world have highlighted the vulnerability of civil buildings. • Due to the interest in the design of exoskeleton, a dynamic characterization of this strengthening solution is needed. • The strengthening of an existing RC structure with EXO-S-2D placed orthogonally to the building façade is presented. • The efficiency of a displacement-based design procedure is validated by means of static and dynamic non-linear analyses. • The results of the dynamic non-linear analyses allow to quantifyperformance indicators of the strengthened intervention. [ABSTRACT FROM AUTHOR]
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- 2024
- Full Text
- View/download PDF
4. Seismic Retrofitting of Existing Industrial Steel Buildings: A Case-Study.
- Author
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Tartaglia, Roberto, Milone, Aldo, Prota, Alessandro, and Landolfo, Raffaele
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STEEL buildings , *INDUSTRIAL buildings , *RETROFITTING , *EFFECT of earthquakes on buildings , *NUMERICAL analysis - Abstract
Industrial single-storey buildings are the most diffuse typology of steel construction located in Italy. Most of these existing buildings were erected prior to the enforcement of adequate seismic provisions; hence, crucial attention is paid nowadays to the design of low-impact retrofit interventions which can restore a proper structural performance without interrupting productive activities. Within this framework, an existing industrial single-storey steel building located in Nusco (Italy) is selected in this paper as a case-study. The structure, which features moment resisting (MR) truss frames in both directions, is highly deformable and presents undersized MR bolted connections. Structural performance of the case-study was assessed by means of both global and local refined numerical analyses. As expected, the inadequate performance of connections, which fail due to brittle mechanisms, detrimentally affects the global response of the structure both in terms of lateral stiffness and resistance. This effect was accounted for in global analyses by means of properly calibrated non-linear links. Thus, both local and global retrofit interventions were designed and numerically investigated. Namely, lower chord connections were strengthened by means of rib stiffeners and additional rows of M20 10.9 bolts, whereas concentrically braced frames (CBFs) were placed on both directions' facades. Designed interventions proved to be effective for the full structural retrofitting against both seismic and wind actions without limiting building accessibility. [ABSTRACT FROM AUTHOR]
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- 2022
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- View/download PDF
5. Design procedure for orthogonal steel exoskeleton structures for seismic strengthening.
- Author
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Di Lorenzo, Gianmaria, Tartaglia, Roberto, Prota, Alessandro, and Landolfo, Raffaele
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ANIMAL exoskeletons , *STEEL , *RETROFITTING of buildings , *EARTHQUAKE intensity , *ORTHOGONAL systems , *STEEL walls - Abstract
• The steel exoskeletons could be designed to significantly increase the structural performance of existing structures, providing at the same time useful support for the energy efficiency upgrading and architectural restyling. Indeed, steel exoskeletons are suitable for an integrated and reversible retrofit intervention coherently with Holistic Vision approach. • Currently, there are not encoded design methodologies properly developed for orthogonal steel exoskeletons. • A detailed step-by-step procedure was introduced to cover all the aspects related to the dimensioning of the orthogonal exoskeleton systems designed to increase the structural performance of existing structures. • The efficiency of the proposed design procedure was investigated through non-linear analyses performed on an existing industrial building. The case study is located in Nusco (Av, Italy) which is classified as in medium–high seismic intensity area. • The introduction of steel orthogonal exoskeleton allows to increase both the stiffness and the resistance of the existing building also regularising its dynamic behaviour. The steel exoskeleton systems are widespread structures applied on the external perimeter of an existing building designed to absorb the horizontal actions providing at the same time useful support for energy efficiency upgrading and architectural restyling. The growing interest in the use of exoskeletons is due to the possibility of creating an integrated retrofit (structural, energetic, formal and functional), combining "structural safety" with the concepts of "deep renovation". Among many solutions present in the literature, in the present work, the steel exoskeletons placed orthogonally to the facade of the existing building have been analysed; this structural typology has the advantage to allow rapid retrofit execution without interfering with the activities carried out within the existing structure. In this framework, the aim of the present work is the introduction of a detailed step-by-step design procedure for steel exoskeletons systems adopted for seismic retrofit of existing buildings looking also at the accessibility and operability aspects. Each step of the procedure was individually explained and it was applied for the design of a strengthening intervention on a real single-storey steel industrial building. The existing building is located in Nusco (Av, Italy) which is classified as in medium–high seismic intensity area which corresponds a peak ground acceleration (a g) equal to 0.238 g. Non-linear analyses were conducted to assess the existing structure's performance as well as to verify the effectiveness of the strengthening solutions designed. The use of the exoskeleton systems allows to strongly increase both the elastic stiffness and the resistance of the investigated industrial building without interrupting its product activity. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
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