Shear beams, engineering and the science of the new Bay Bridge

(Editor’s Note: This story was originally published March 22, 2010)

Putting aside mind-blowing cost overruns, along with delays at a Chinese steel fabrication plant, engineers and scientists are following the equally mind-blowing construction feats in the eastern span of the San Francisco–Oakland Bay Bridge.

Scheduled (so far) to open in 2013, the $6 billion (so far) to replace the earthquake-vulnerable current span employing groundbreaking engineering to create the world’s first self-anchored suspension bridge. Unlike the current span, part of which collapsed in the 7.0-magnitude 1989 Loma Prieta Earthquake, this one is designed to withstand rare seismic events. Specifically, the span has a “1,500-year return period,” meaning the largest rock motions expected to occur at the bridge site once every 1,500 years.

A shear link beam

At the heart of the engineering is the design of the 525-foot tower and its four innovative “shear link beams” which can move and twist independently of each other. These beams attach to a complex foundation whose 13 angled piles extend 196 feet below the waterline and are anchored into bedrock through “rock socketing”—reinforced concrete that is placed within steel shafts which, in turn, are drilled into bedrock.

One of the 13 piles of the foundation contains seismic monitoring equipment to collect information for the California Division of Mines and Geology.

In addition to the tower, two huge marine foundations are to supply support for the tower on Yerba Buena Island and at the eastern end of the road decks.

Timoshenko

It is in the use of shear link beams that has caught the attention of engineers. The idea was to use elements of the Timoshenko beam theory, developed by Ukrainian/Russian Stephen Tomoshenko in the early part of the 20th century.

Timoshenko, a specialist in continuum mechanics, devised the formula to replace the Bernoulli-Euler theory of beam design.

Now, a century later, his work is put to use in the new Bay Bridge.

Much of this is to be explained on television April 9, when KQED’s Quest airs on Bay Area TV. The show segment currently is online, however, for those who want a sneak peak.

VIDEO: The New Bay Bridge, Earthquake Makeover (KQED)

QUEST on KQED Public Media.

Citations:

Push to build 2 crucial Bay Bridge parts faster
San Francisco Chronicle, March 11, 2010

Timoshenko beam theory
ASCE Research Library, 2009

Re-engineering the Bay Bridge: Built Quake Tough
Popular Mechanics June 2007

Bay Bridge
Unparalleled bridge, unprecedented cost
San Francisco Panorama | San Francisco Public Press
Dec, 8, 2009

KQED Quest

Bay Bridge Info Web site (Caltrans)

One thought on “Shear beams, engineering and the science of the new Bay Bridge

  1. I hope the structural upgrade solves their problem.
    I don’t live in the Bay area but I still feel the tension from way over here in the Philippines.
    We get some real earthquakes over here from all the underwater and above water movement. The biggest problem is having people building their homes on the sides of the mountains with little or no support.