2020 CANADIAN CONSULTING ENGINEERING AWARDS
TRANSPORTATION
AWARD OF EXCELLENCE
Rehabilitation of Historic Blackfriars Bridge
Dillon Consulting
Returning the bridge to its site required the largest mobile crane the city had ever seen.
“The project team conserved a beautiful heritage structure, ensuring the old methods of construction were used and the original form restored.” –Jury 38
www.canadianconsultingengineer.com
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Constructed in 1875 over the Thames River in London, Ont., Blackfriars Bridge remains one of North America's oldest surviving wroughtiron bowstring arch-truss bridges. The city retained Dillon Consulting to rehabilitate it, adding strength while preserving its character. To replace or restore? Since the days of horse and buggy, Blackfriars Bridge has served London not only functionally as a crossing for vehicles, but also as an iconic community symbol. Connecting the city’s central business district to the Blackfriars heritage conservation district, the arch-truss bridge represents the peak of wrought iron metal construction, just before steel emerged as the dominant material. In 1948, Dillon was commissioned to repair and strengthen the bridge, which provided a second service life of more than 70 years. By 2010, the city was considering replacing it and called on Dillon again to conduct a multi-faceted risk assessment. The next phase involved a detailed, arm’s-length inspection and evaluation, followed by immediate short-
term repairs. This work provided critical insight for Dillon to lead an environmental assessment and consider options ranging from removal and replacement to a non-functional replica. The public embraced the strategy of rehabilitation. The detailed design and construction strategy combined almost-forgotten techniques with modern technologies. Hot riveting methods from the mid-1900s were brought back. Replica members were fabricated and integrated into the original bridge. Dillon recommended lifting the bridge off its bearings, disassembling it, shipping it to a fabrication facility for rehabilitation, then returning it to the site for assembly and erection. This process required the largest mobile crane ever used in London. The construction phase was accomplished in 18 months. Old meets new Wrought iron is a heterogeneous material with impurities, which limited the project’s fabrication options and eliminated most welding approaches. For this reason, old-world hot riveting techniques were brought back. Where needed, modern button-headed tension control bolts provided an historic appearance without compromising performance. Computerized machining was used to create replicas of the smoothly rounded wrought-iron cruciform members distinctive to the original forging methods. Dillon applied finite element analysis to the critical archto-tie connection at the bearing. Customized adjustments were required to address extensive dimensional inconsistencies of the original members. The logistics of removing, assembling and erecting the bridge involved
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October/November 2020
2020-10-05 9:16 AM
CCE_Dill
