EGOIN SA was awarded a timber design project for 35 new CLT apartments in Girona, Spain. Cross-laminated timber (CLT) was selected as the building material due to its sustainability, ability to filter CO2, and architectural design freedom.
This multi-material tower structure includes mainly timber and steel elements. Only the foundation and attached rigid columns were constructed as reinforced concrete.
In 2018, Alì Supermercati decided to extend its existing regional commercial network with a new shopping mall located in Via Noalese, Treviso, Italy. The project, designed by Studio Signorotto Architettura of Treviso, includes a glued-laminated timber roof, which integrates with the area’s existing wood structures, characterized by a perfect aesthetic design and quality building material.
The recent trend in high-rise construction is clearly dominated by timber as the most ecological and environmentally-friendly material. The project promoter Nexity Resolutely is committed to constructive building solutions with a reduced carbon footprint through various labels and certifications included in its several office and commercial timber projects.
Among these is the Palazzo Meridia, which is currently the tallest CLT office building in France. Dlubal customer CBS-Lifteam was responsible for the planning, supply, and installation of the timber structure.
This hydraulic dam project, located in the Provence-Alpes-Côte d'Azur region (PACA), included design consideration for the control valve’s rotational axis deformation, maximum stress, and material fatigue behavior.
Dlubal customer Estudi M103, an architecture office for structural consulting and calculation reports, was commissioned to carry out the structural consulting of the first office building built entirely of wood in Spain, using Dlubal RFEM software. It is an office building with a ground floor and 4 above-ground stories, located on Calle Llacuna 42 in Barcelona. With this type of building, construction periods are shortened due to the use of new sustainable materials, and even carbon emissions are reduced by 50% during construction.
The 5-story residential building with an impressive ecological balance was presented at the International Building Exhibition (IBA) in Hamburg, Germany. Being CO2-neutral in both its production and operation, the Woodcube's energy level corresponds approximately to that of a passive house. All material used in the timber cube is completely recyclable and biodegradable.
Isenmann Ingenieure from Haslach, a customer of Dlubal Software, was in charge of the structural planning. The calculation and design of the access core and the pile foundation made of reinforced concrete were performed in RFEM.
For a project in Rotterdam, ADS Ertner used IDEA CONNECTION to analyze a structural steel connection. This program calculates steel connections utilizing the CBFEM method, where each thin-walled cross-section is modeled with nonlinear material properties, nonlinear bolts, and nonlinear welds. In order to transfer loads, ADS Ertner needed to use blocks in the connection model. In IDEA CONNECTION, blocks are not easily integrated with thin-walled plates.
A kindergarten, designed according to Building Information Modeling (BIM), is currently under construction in the Tyrolean municipality of Schwoich. The digital 3D model accompanies the construction project from design until completion.
The architectural planning was performed with Autodesk Revit. The structural model, including cross-sections, materials, loads, and so on, was exported to RFEM with the direct interface and designed there.
The feed hopper is a part of the conveyor belt system realized in Uzbekistan.
The engineering office of Jürgen Ehlenz, a customer of Dlubal Software, was responsible for structural analysis and detailed design, as well as construction drawings of the feed hopper and other parts of the conveyor system.
In June 2018, a new and unique lookout tower by world-famous architect Martin Rajniš opened in the Prague municipal district of Kyje. When designing the tower, maximum emphasis was placed on the use of natural and renewable material.
The lookout tower structure is constructed with acacia logs 3.15 inches in diameter. The main supporting structure includes three legs, where a spiral staircase is also suspended. The tower legs are made of a lattice structure in the shape of an elongated barrel. At the top, the legs are interconnected with three steel hoops and a triangular steel structure.
The tower is 77.1 ft high with the observation platform located 65.5 ft above ground elevation. The observation tower can hold up to 9 people during typical operation.
The efficient combination of wood, steel, and glass composing this staircase, fashioned by the YLEx design office, provides a soothing perspective of lightness.
The tripper car bridge is a part of the conveyor belt structure realized in Uzbekistan.
The engineering office of Jürgen Ehlenz, a customer of Dlubal Software, was responsible for the structural analysis and detailed design of the conveyor bridge and other parts of the conveyor belt system.
Due to the deterioration of some timber footbridges on the pedestrian and cycle path of the Seriana Valley in the province of Bergamo, Italy, it was necessary to refurbish them with more durable materials. Therefore, the mountain community of the Seriana Valley commissioned Studio Rota Nodari of Alzano Lombardo to design and manage the works for the replacement of the bridge over the Serio river between the municipalities of Cene and Gazzaniga, Italy.
The building is located on avenue Melchor Ocampo, Tercera Sección, in El Espinal, Oaxaca, Mexico. It is a building with a pharmacy on the ground floor and medical offices on the upper floors with partitions made of lightweight material.
A second mixing plant for ground building materials was built in 2015 on the site of Baumit GmbH in Landsberg/Lech. The total weight of the supporting steel construction amounts to about 661 tons.
In the multi-story administration building, the spatial interaction of the stiffening wall and ceiling surfaces was necessary for stiffening the building.