Roofing of Sports Area at Multi-Purpose High School in North of Mayotte, France
Customer Project
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Roofing of Sports Area at Multi-Purpose High School in North of Mayotte, Indian Ocean (© Normandie Structures)
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Roofing of Sports Area at Multi-Purpose High School in North of Mayotte, Indian Ocean (© Normandie Structures)
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Model of Roofing in RFEM 5 (© Normandie Structures)
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Deformations Under Wind Load in RFEM 5 (© Normandie Structures)
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Deformations Under Wind Load in RFEM 5
As part of the renovation and reconstruction of the sports area at a multi-purpose city high school in the north of Mayotte, an overseas department of France, a roofing was built as a steel-textile structure to protect the area from bad weather and the sun.
| Investor | Rectorate of Mayotte |
| Project Management | Malecot + Boyer Architectes |
| Engineering Office | ACS Production |
| Framework | Normandie Structures, Etrepagny, France |
| Membrane | Spécial Textile |
Model Parameters
Model
The French company Normandie Structures was in charge of the preliminary study, manufacturing, and assembly of the steel-textile framework.
Structure
The structure of the yard's roofing above the sports area consists of 7 steel frames, made up of hollow circular columns and PRS beams in galvanized steel. The frames are connected to each other by a system of longitudinal bracings between the columns, as well as by struts and arches installed between the beams. A channel system integrated into the beams and downpipes integrated into the columns allow unobtrusive rainwater drainage and improved esthetic appeal. The double-curved membrane cover provides optimal protection against the effects of weather while offering a modern and clear design.
This courtyard roofing now offers an ideal covered space for sports activities and other outdoor events of the school.
Design Software
As part of the construction of the roofing, Normandie Structures carried out a preliminary study of the project. The structure was modeled in RFEM 5 on the basis of an imported wire frame model created in SolidWorks. In order to determine the wind loads to be applied to the roofing in relation to its location by the sea, situated in a cyclonic risk zone, digital wind tunnel analyses were carried out by means of the RWIND software, taking into account the topography of the site.
The RF-FORM-FINDING add-on module made it possible to find the shape of the membranes used for the roofing and to consider their effects on the framework.
The elements of the steel frame were designed by the RF-STEEL EC3 add-on module.
Project Location
Keywords
ACS Production RFEM 5 RF-FORM-FINDING RF-STEEL EC3 Framework Membrane Form-Finding
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