ATA Completes Successful Testing of Modular Bridge Design

“Bridge-in-a-box” design supports 84,000 pounds during testing

SAN DIEGO, Calif., January 12, 2012 — ATA Engineering, Inc. is pleased to announce the successful completion of bridge_assembly2proof testing of the ARCS™ deployable bridge system. Technologies incorporated in the ARCS bridge result from a three-year effort funded by the US Army’s TARDEC (Tank Automotive Research, Development and Engineering Center). Under an SBIR (Small Business Innovation and Research) grant, ATA developed a highly portable, reconfigurable design that addresses several of the shortcomings of today’s deployable bridging technologies. The prototype that resulted from this effort is a 42-foot, 7,000-pound demonstration bridge constructed from aluminum and designed to handle loads in excess of 30 tons. Unlike other temporary bridging systems that typically require large transport and deployment vehicles and are limited to a fixed span and load capacity, ARCS can be deployed rapidly while remaining adaptable to different gap widths and loads. Fulfilling the need for a “bridge-in-a-box,” a complete deployment-ready 80-foot bridge can be transported to the need site inside a standard intermodal shipping container.

Genie on BridgeA comprehensive proof-testing and validation program of the prototype system was undertaken in July of 2011 at an ATA facility in Del Mar, CA. Developed to accommodate crossing by a 30 ton vehicle over a 12 meter (40 foot) gap, the bridge was composed of six segments constructed from interleaved aluminum modules. To simulate traversing by a large military vehicle, steel plates were loaded onto the bridge and moved across the span. While the bridge was designed to support loads of up to 60,000 pounds, ATA successfully tested the bridge to 84,000 pounds. In addition to loading with plates, various vehicles including an 11-ton forklift successfully traversed the bridge. Material stresses, bridge displacement, and cable tensions were recorded at numerous locations during testing, and close correlation of the test data and the analytical model predictions showed that the prototype bridge met or exceeded all design objectives.

While the ARCS deployable bridge system is ready to be put to use, future development is expected to demonstrate theBridge Overview system’s capability at spans exceeding 100 feet and for crossing by vehicles in excess of 75 tons. Proposed studies include deployment method refinement for end-users and fabrication of bridge segments using lightweight composite materials. Though the bridge system was designed with the U.S. Army’s needs in mind, the system has a far broader applicability and can provide unique temporary bridging solutions for civilian projects due to its adaptability, logistical benefits, and low environmental impact when deployed.

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