Seismic Energy Dissipation Devices

Energy dissipation technology is a new technology to improve earthquake resistance of structures. During an earthquake, a certain amount of energy is transferred to the building. While buildings can dissipate, or damp, this energy, the capacity to do so before becoming deformed or damaged is quite limited.


A building dissipates energy either by undergoing large-scale movement or by sustaining increased strains in key building elements such as columns and beams. Both of these processes eventually result in some degree of damage. Structural engineers can greatly decrease the seismic energy entering the building, and thus decrease building damage, by equipping a building with additional devices that have high damping capacity.

A number of damping devices have been developed. What follows are some representative examples:

Dampers Mechanism
 Dampers Mechanism 
1.    Friction Dampers utilize frictional forces to dissipate energy
X - Plate Metallic Damper
X - Plate Metallic Damper

2.  Metallic Dampers utilize the deformation of metal elements within the damper 
friction damper
3.  Viscoelastic Dampers utilize the controlled shearing of solids
Metallic Damper
 Metallic Damper

4.  Viscous Dampers utilize the forced movement (orificing) of fluids within the damperViscous Damper
Fluid Viscous Dampers
Fluid Viscous Dampers


Damping Device Installed with Brace
Damping Device Installed with Brace







Damping devices are often installed as part of bracing systems. Figure above shows one type of damper-brace arrangement, with one end attached to a column and one end attached to a floor beam.

1 comment:

  1. provide a damper is economical or ductile detailing is economical?

    ReplyDelete