Lakhta Tower Features 404 Glass Fins from sedak

The vision was to make use of organic forms to connect the power of the water and the flow of the space with an openness and lightness. Photo: Laktha Center

Europe‘s tallest building dominates the north of St. Petersburg, Russia, directly on Neva Bay. The sheer size of the Lakhta Tower stands out from a distance. Directly at its foot, two glass multifunctional buildings and a long, curving lobby bed turn the 462 meter tower into a harmonically undulating ensemble and give it an architectural basis. The gigantic dimensions are reflected by the entrance areas of these buildings. With a total of 326 glass fins in the north and south blocks as well as 78 glass fins in the entry archway, sedak, based in Gersthofen, Germany, provided the structural framework for the large-area glass façades. Among them were the longest laminates used in any current construction worldwide, according to the company.

Glass is architecture: the glass façades with their gigantic panes supported by glass fins, some with heights of over 17 meters, are optimally suited to the immense size of the Lakhta Tower. Photo: Laktha Center.

Whereas the Lakhta Tower primarily contains office space and a panorama restaurant, the adjoining buildings extend the new quarter functionally. In the East the lengthy entrance lobby melds into the colossus. Here also, the architects‘ passion for glass is clearly visible.
A large glass façade opens the new quarter toward the city. This was realized with 78 glass fins, raising the transparency to a high level. The seven-layer laminates made from 12-mm thick sheets of glass were provided with high-grade steel shoes and equipped with steel elements by sedak during manufacture. A flushfitting fixture was created that enables an unobtrusive and aesthetically attractive attachment of the façade panes. This interaction underpins the architectural vision of using organic forms to connect the power of the water and the flow of the space with an openness and lightness.

“As the new home for diverse public facilities, the planners created two extensive buildings to the west of St. Petersburg‘s new landmark. The buildings, wrapped completely in glass, swing away from the tower in a series of waves, rising steeply in the direction of the water.
In addition to a cinema, planetarium and science center, they house cafes, shops and a spa. In order to outwardly emphasize this openness for everyone, the recessed corners in the northern and south-western wings rise significantly and invitingly above the rest of
the building. A total of 326 glass fins carry the façade, narrowing towards the top, where they follow the external profile of the buildings. Here, the 17.2-meter long fins that support the façade at the highest points stand out. They are the longest glass fins currently
in use in any building. This is a milestone that we are very proud of, but the limits have not yet been reached,” said sedak manager Ulrich Theisen.

The glass fins were manufactured with high precision to enable the glass façades to be safely attached to them. Photo: sedak

In order to support the glass areas of the façade resulting from the geometry, with their various loads, sedak manufactured the glass fins in multiple designs. The main load is carried by the numerous triple-layer laminates – in three different widths, 237 glass fins were used in the construction of the two auxiliary buildings. These are complemented by 58 eight-layer laminates (8 by 12 mm) equipped with high-grade steel bases, 14 seven-layer (5 by 12 mm and 2 by 15 mm) as well as 17 six-layer laminates (6 by 12 mm). According to Theisen, glass brackets were laminated onto the latter to attach the steel elements, achieving an optically seamless transition to the façade components. Over the complete height of the various fins sedak drilled the attachment points for the façade glazing: a total of 3316 holes with diameters of between 32 and 60 mm with a high degree of precision.

“In the subsequent lamination everything had to function perfectly. That was a great challenge because absolutely no tolerances were possible,” explained Theisen.

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