Understanding how major earthquakes happen is one of the biggest challenges in quake science — tremors of different sizes have very different characteristics, let alone outcomes. Lab simulations of earthquakes stick rock surfaces together and push on them with different pressures to a breaking point, causing them to slip against each other. But this doesn't fully simulate the physics of a huge and damaging earthquake, because the rupturing is too weak by five or six orders of magnitude. A new experimental earthquake setup offers a better fake-quake solution.
Scientists in California and Oklahoma built a rotary earthquake simulator that spins and stores energy inside a 500-pound flywheel. Its 100 HP three-phase electric motor provides
torque up to 3,000 Nm at any velocity from zero to 3,300 RPM, and it can accelerate to full rotation speed in 0.1 seconds. As it spins, a fast-acting (30 millisecond) clutch grabs a disc-shaped piece of rock and presses it against the flywheel, which forces the rock to rotate with the spinning hunk of metal. It moves until all the kinetic energy dissipates, which the researchers called an "earthquake-like slip event."
These ELSEs are similar to real earthquakes because they contain a finite amount of energy and the fault pressures change as the quake propagates, the researchers say. They compared ELSE runs to the energy release of six real earthquakes, and found the energy densities in the sample super-strained rock is reasonably comparable to those in real earthquakes, between 4 and 8 magnitude. For this reason, the fake quakes can be used to estimate the intensity of an energy release during a real earthquake, according to the researchers, led by Jefferson Chang and colleagues at the University of Oklahoma.
There are still several questions, however, involving the prediction of slip along a fault line under a given scenario — but further experiments with the flywheel may be able to help answer them, along with improving models of earthquake propagation and behavior. The flywheel experiment is published today in Science.
They will get all the real world simulation they want in a few months---the San Andreas is stirring.....
There will be another earthquake that forces the gov. to take money out of this project and send to country X before they finish (no offence to any gov. officials that read this)
That man broke that concret with a kick with his foot!