Housing a collection of fragile historical artifacts next to a busy railroad track calls for special protective measures and vibrations must be kept to an absolute minimum. The same technology that is used to protect buildings from heavy earthquakes is used to achieve this.
In the city of Amersfoort in the center of Holland, an outstanding new public building serves as the headquarters of the Dutch Government Service for Archaeology, Cultural Landscape and Monuments (RACM).
The building is a showcase of innovation and sustainability, but its technology goes beyond what most visitors see. One of the building’s groundbreaking features is its vibration isolation technology – in the form of 650 rubber vibration isolation bearings located in the garage beneath the building, in the walls of the basement and on top of its many columns. The result is that the entire building is mounted on shock absorbers, a practice that is fairly common in the world’s earthquake-prone regions but not in the Netherlands.
Protection and comfort
“It is rare indeed for Dutch buildings to be constructed on vibration bearings,” says Marcel de Vos, Manager Engineering at Trelleborg Offshore & Construction’s Ridderkerk facility, which made and supplied the vibration isolation bearings. “But since the RACM building is situated right next to one of the busiest railroad connections in Holland, this was considered very desirable. Damping the railroad vibrations not only makes for a comfortable working environment, but it also protects the many priceless and very fragile artifacts in the building.”
Although rubber-mounted buildings are rare in the Netherlands, suppliers of rubber bearings are not, as the same technology is used for bridges and tunnels. A vibration isolation bearing looks deceptively simple: a block made of rubber layers separated by steel shim plates. After the rubber compound and steel grade have been selected, the other main variables to consider are the size and the number of blocks. This is where Trelleborg’s technical and manufacturing expertise comes in, as vibrations are extremely complex mathematically. Engineers must take into account not only the kind of vibrations (frequency, magnitude and duration) but also the weight of the building at various points. This calls for a number of different bearings under the same building.
“This was an extraordinary job both in scale and in complexity,” de Vos says. “The bearings’ performance requirements were extremely tight, to the extent that other companies proposing solutions admitted they could not comply.” Whereas a natural frequency of 8 to 10 Hertz (oscillations per second) for isolation systems is common in the industry, this project called for less than 4.5 Hertz. Most insiders considered this impossible, but after many engineering calculations, Trelleborg delivered an unprecedented 4.3 Hertz.
The treasures of the RACM building, many of them thousands of years old, are now as safe as possible, and intercity trains can pass by without disturbing them.
In Amersfoort, a quickly growing city with a well-preserved and protected medieval centre, the RACM building rises as a futuristic, slightly leaning piece of architectural art. The building, created by Madrid-based architect and artist Juan Navarro Baldeweg, houses the Dutch National Service for Archaeology, Cultural Landscape and Built Heritage as well as a library, museum, auditorium, art library and exhibition space. In front of the RACM building is a beautiful pond; a sharp contrast to the busy railway behind the building.
How it works
: The natural rubber bearings are placed between the ground and the structure to be protected. The bearings are flexible, thus greatly reducing the transmission of vibration from any disturbances to the structure. The bearings do not absorb the energy of the vibrations from the ground, but prevent energy transfer by mismatching the frequencies between the ground borne vibration and the structure.
This is an article from Trelleborg's T-Time magazine. To download the latest edition, go to: www.trelleborg.com/t-time
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