An 88.18-ton steel structure subjected to high thermal and mechanical stresses had an obsolete fastening system that no longer met the current ergonomic requirements. The study of a new fastening system was based on specifications that required significant ergonomic improvement, certified resistance to stress, low costs, low space requirements, and ease of implementation and operation.
In order to increase the number of places in the René-Cassin college canteen in Éloyes, the Departmental Council launched major expansion works in 2020. This extension required the reconstruction of a new timber courtyard covering an area of 4,521 ft².
VisLab, a start-up at the University of Parma, is a global leader in autonomous driving system development for various vehicle types. The American company Ambarella became aware of VisLab’s mission in a rapidly developing area characterized by strong competition, and decided to strategically acquire the company. As a result, a new location for headquarters to accommodate this research was required. Ambarella preferred the research center to remain on the University of Parma campus in Italy.
The project for designing a filter/dryer device, including agitator, required a complete stress and deformation analysis in RFEM. The complex modeling of the structure, which had 1,424 surfaces, 158 solids, and 425 members, represented a special design challenge.
To perform renovations of the steeple of the St. Martinus parish in Kerpen, Germany, a scaffold was required. The designers had to meet a special challenge, as the frame construction had to be set up at the spire top without applying pressure anchors, which are usually used in scaffolding.