On Friday, Aug. 16, a team led by Johns Hopkins University researchers will conduct final tests to see how a Southern California earthquake could impact a two-story office building. Inside a lab at the University at Buffalo in New York, two massive shake tables will be use to reproduce the strongest seismic forces recorded during the catastrophic Northridge earthquake in 1994.
Recent news from The Johns Hopkins University
This section contains regularly updated highlights of the news from around The Johns Hopkins University. Links to the complete news reports from the nine schools, the Applied Physics Laboratory and other centers and institutes are to the left, as are links to help news media contact the Johns Hopkins communications offices.
MEDIA ADVISORY: Huge Shake Tables Will Replicate an Earthquake Beneath a Two-Story Test Building in Buffalo
Earthquakes never occur when you need one, so a team led by Johns Hopkins structural engineers is shaking up a building themselves in the name of science and safety. Using massive moving platforms and an array of sensors and cameras, the researchers are trying to find out how well a two-story building made of cold-formed steel can stand up to a lab-generated Southern California quake.
Three engineering experts at Johns Hopkins University can talk about how the storm could cause coastal damage and power outages, and affect hospital functionality.
Cold-formed steel has become a popular construction material for commercial and industrial buildings, but a key question remains: How can these structures be designed so that they are most likely to remain intact in a major earthquake? To help find an answer, Johns Hopkins researchers have been awarded a three-year $923,000 National Science Foundation grant to study how seismic forces affect mid-rise cold-formed steel buildings, up to nine stories high.