PEER Media Resources
Computer model of a bridge foundation that was created to analyze soil-structure interaction under seismic loading. The OpenSees open-source software used for this model was developed by PEER.
Photo courtesy of PEER, the Pacific Earthquake Engineering Research Center, peer.berkeley.edu.
Reinforced concrete bridge column specimen tested with earthquake loading for PEER's Transportation Program.
Photo courtesy of PEER, the Pacific Earthquake Engineering Research Center, peer.berkeley.edu.
Reinforced concrete bridge column specimens tested with earthquake loading for PEER's Transportation Program.
Photo courtesy of PEER, the Pacific Earthquake Engineering Research Center, peer.berkeley.edu.
Former PEER Director Jack Moehle investigates a concrete column test specimen as a part of PEER's Transportation Program.
Photo courtesy of PEER, the Pacific Earthquake Engineering Research Center, peer.berkeley.edu.
Nonductile concrete frame specimen shows brittle failures after testing under earthquake loading at PEER's Earthquake Simulator Laboratory on the UC Berkeley campus.
Photo courtesy of PEER, the Pacific Earthquake Engineering Research Center, peer.berkeley.edu.
Reinforced concrete bridge column specimen tested with earthquake loading for PEER's Transportation Program.
Photo courtesy of PEER, the Pacific Earthquake Engineering Research Center, peer.berkeley.edu.
Nonductile failure of an under reinforced concrete column specimen testing under earthquake loading. This research project was created to investigate the response of older concrete buildings to earthquake shaking.
Photo courtesy of PEER, the Pacific Earthquake Engineering Research Center, peer.berkeley.edu.
