We eliminate vibrations from places where they do not belong.
Mechanical vibrations are a physical quantity inherent in nature. However, something that gave us joy as children as we soared high on a swing, can cause serious problems in our everyday lives. Vibrations lead to unwanted dynamic excitation, which is transferred into structure-borne noise and can result in secondary airborne noise. They are therefore not only noticeable at the source of disturbance, but also as vibrations and noise in secondary locations. But, this does not have to be the case.
The principle of vibration isolation
Put simply, elasticity is required in the locations where vibrations originate or have an effect. This prevents them being transferred and becoming a problem. The critical factor is achieving precisely the right level of vibration dampening. Does the vibration need to be absorbed or passed back into the system? Which different frequencies occur? How much elasticity can there be in the system without influencing its stability and statics?
We have been looking into all these questions for decades through research, testing and manufacturing. We work with scientists, such as those from the highly acclaimed TU Munich, to develop applications. We have our materials tested and certified by independent institutes. We work in partnership with our customers to find new solutions that are later used around the world.
Find out more in our case studies
Case studies
Elastic bearing of the Ankara – Sivas high-speed line
Case studies
NOKIA Arena in Tampere (FI)
Case studies
Alpstadt Lifestyle Hotel exemplifies the latest modular construction methods in wood
Case studies
Grenoble
Case studies
Urban Soul: the new quarter in the heart of Bonn
Case studies
Bearing of the wheelhouse on patrol boats
Case studies
Musikverein Vienna Concert Hall
Case studies
Pool bearing at the Address Residences Jumeirah Resort + Spa, Dubai
Case studies
g-fit Shock Absorb Reebok CrossFit Zuerich
Case studies
Improvement of Track Quality at Daqin Coal Line, China
Case studies
More Elasticity for the Heavy Haul Malmbanan Line
Case studies
Successful Tests on the Fengsha Heavy Haul Line, China
Case studies
Rail pads on a heavy traffic route
Case studies
Bearing of Swimming Pools at the Villa Aurea, Lochau
Case studies
Student Residence UDQ, Hamburg
Case studies
Lightweight Stair Bearing in a terraced Housing Complex
Case studies
Floating floors for rolling stock in Hitachi high speed trains
Case studies
The Philharmonic Hall at the Gasteig
Case studies
Gotthard Base Tunnel
Case studies
Rhaetian Railway
Case studies
London Underground
Case studies
Berlin-Cottbus line
Case studies
Brenner Base Tunnel
Case studies
East London Line
Case studies
Renovation of Hotel Alte Post
Case studies
The Rushmore Building
Case studies
Toranomon Hills Tower
Case studies
Solid timber apartment building by Meickl
Case studies
Luxury apartment block The Touraine
Case studies
Central & Park Panorama Towers, Arnulfpark
Case studies
Rettenbach power station in Sölden
Case studies
Hydroelectric power plants in Kempten
Case studies
Drachen-Center
Case studies
Ginza Kabukiza Theater
Case studies
Steigs power station
Case studies
M.Y. Excellence superyacht
Case studies
Vibration Protection for Red Bull Music Academy
Case studies
Heliport Hospital Interlaken
Case studies
Cinemas in the Grandberry Mall, Tokyo
Case studies
Europaallee - a new city quarter in the middle of Zurich
Case studies
New Rischart company headquarters in Munich
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