Active vibration control - A new approach to build extremely light bridges
| Author(s): |
Achim Bleicher
|
|---|---|
| Medium: | conference paper |
| Language(s): | English |
| Conference: | 35th Annual Symposium of IABSE / 52nd Annual Symposium of IASS / 6th International Conference on Space Structures: Taller, Longer, Lighter - Meeting growing demand with limited resources, London, United Kingdom, September 2011 |
| Published in: | IABSE-IASS 2011 London Symposium Report |
| Year: | 2011 |
| Abstract: |
This paper presents a new approach to build extremely light bridges. By using high-strength carbon fibre reinforced plastic (CFRP), a very light and flexible stress ribbon footbridge was built in the lab of the Chair of Conceptual and Structural Design at TU Berlin. It has a span of 13 m and a struc- tural height of only 1 mm. To reduce their exceptional high vibration sensitivity, an active vibration control concept was developed and applied to the prototype. This concept includes the embedding of smart actuators at handrail level. Here, biologically inspired, extremely light and powerful pneu- matic muscle actuators are used. The efficiency of the multimodal active vibration control is shown by an enormous reduction of pedestrian-induced accelerations in the first three vertical modes. Finally, the findings show that active controlled lightweight structures are one step closer to the vision of “zero” structural height and “infinite” stiffness. |
| Keywords: |
lightweight structure stress ribbon bridge footbridge dynamics pedestrian-induced vibration Multimodal and multivariable active vibration control pneumatic muscle actuator time- delayed velocity feedback control
|
Structures and Projects
- About this
data sheet - Reference-ID
10065245 - Published on:
03/10/2011 - Last updated on:
05/07/2021
