Minnesota Department of Transportation – I-90 Dresbach Bridge Dresbach, Minnesota

Minnesota Department of Transportation – I-90 Dresbach Bridge Dresbach, Minnesota

The I-90 Dresbach Bridge over the Mississippi is a heavily used commuter route for travelers in the La Crosse / La Crescent area, an important regional connection, and a part of the nation’s longest (coast to coast) interstate highway (I-90). Originally built in 1967, the 3,497-foot steel-girder bridge has now been completely replaced.

In addition to the design being fracture-critical, the previous Dresbach Bridge had narrow shoulders that caused lane closures when vehicles were stranded or during routine maintenance operations. The bridge’s past interchange geometry also created difficult and unsafe traffic movements for commuter traffic.

The new bridge was designed by Figg Engineering. The crossing now consists of two separate bridges parallel and upstream from the existing bridge. They are post-tensioned concrete box girder structures over the main river channel and precast concrete girders over the back channel that meet current structural and geometric standards. It includes a reconstructed interchange designed to improve traffic flow, safety, capacity and access on and between Highway 61/14 and I-90. The 2,593-foot long, 45-66-foot wide bridge is designed to last 100 years. It added two twelve-foot lanes in each direction. The interchange provides full traffic flow with no signals between I-90 and Hwy 61. It provides easy access to the Traveler Information Center and boat launches from all directions and a fly-under ramp, eliminating competing traffic.

Each bridge includes three major piers placed within the navigational channel of the Mississippi River. Six additional piers are located to the east, some in the backwaters of the river. Underlying overburden geology consists of granular alluvium with some organic interlayering. The Eau Claire formation bedrock is about 90 feet to 145 feet below the mudline or ground surface. The bedrock is mainly sandstone with beds of siltstone, shale, and mudstone.

AET conducted analysis of various foundation types, authored the foundation reports, and contributed to the preparation of the Special Provisions, including the use of force pulse (Statnamic) pile testing. The final foundations included 42-inch diameter open-ended steel pipe piles for the river piers, HP14x117 piles for the approach piers, and 16-inch diameter CIP steel pipe piles for the abutments. The force pulse testing conducted for the river piers substantiated AET’s predicted high pile resistance.

One of the challenges associated with construction of the new bridge revolved around the 35-foot-high and 70-foot-high embankments at its east and west approaches, respectively. The west abutment was placed upon a high tiered wall embankment system, which required analysis of the abutment pile resistance contribution to the global stability of the embankment. For the interchange, AET performed global stability analyses of single and tiered MSE and CIP retaining walls, design of a geogrid reinforced embankment over soft soils, foundation design recommendations for footing and pile supported walls, rock slope stability review and geotechnical review of numerous land-side bridge foundations. AET installed remotely monitored geotechnical instrumentation at each approach to record performance of embankment stability over time. In conjunction, AET’s aggregate laboratory also performed dozens of grain-size and direct shear tests for sands used in the embankments to document the embankment fill soil shear strength relative to project specifications.

AET developed the project’s concrete mix designs and provided a range of testing, monitoring, geotechnical and environmental services, including mass concrete heat generation and dissipation analysis for elements with a minimum thickness greater than four feet. Our Building Technology group also performed a condition survey of the Dresbach Travel Information Center.

For more information about AET’s services for this project, visit the following pages:
Construction Materials
Building Technology

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David Rettner

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