A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Strength and Ductility of a Three-Span Externally Post-Tensioned Segmental Box Girder Bridge Model
The report is the third and final report in a series outlining a major study of the behavior of post-tensioned concrete box girder bridges with post-tensioning tendons external to the concrete section. It summarizes the design, construction, testing and interpretation of a very comprehensive three-span externally-post-tensioned box girder bridge model. The model was constructed from precast segments using the span-by-span construction procedure. Careful measurements were made during construction to document the actual stresses and prestress losses occurring. One span of the model had dry joints while the other two spans had epoxy joints. Loading was applied at design service load levels, design factored load levels, and ultimate load cycles for both maximum flexure and maximum shear loading configurations. Careful observations were made of deformations, tendon stress changes, joint openings and reaction changes. Companion analysis was performed to assist in development of the model and in the interpretation of the test data. The cracking load for epoxy-jointed spans was approximately twice the load required to decompress the flexural tension fiber and begin to open a previously cracked joint. This suggests that epoxied joints can provide a reasonable factor of safety against joint opening and that this same factor of safety can be provided in dry-jointed spans only by applying additional prestress force. Both the dry and epoxy-jointed spans displayed considerable ductility during flexural strength tests.
Strength and Ductility of a Three-Span Externally Post-Tensioned Segmental Box Girder Bridge Model
The report is the third and final report in a series outlining a major study of the behavior of post-tensioned concrete box girder bridges with post-tensioning tendons external to the concrete section. It summarizes the design, construction, testing and interpretation of a very comprehensive three-span externally-post-tensioned box girder bridge model. The model was constructed from precast segments using the span-by-span construction procedure. Careful measurements were made during construction to document the actual stresses and prestress losses occurring. One span of the model had dry joints while the other two spans had epoxy joints. Loading was applied at design service load levels, design factored load levels, and ultimate load cycles for both maximum flexure and maximum shear loading configurations. Careful observations were made of deformations, tendon stress changes, joint openings and reaction changes. Companion analysis was performed to assist in development of the model and in the interpretation of the test data. The cracking load for epoxy-jointed spans was approximately twice the load required to decompress the flexural tension fiber and begin to open a previously cracked joint. This suggests that epoxied joints can provide a reasonable factor of safety against joint opening and that this same factor of safety can be provided in dry-jointed spans only by applying additional prestress force. Both the dry and epoxy-jointed spans displayed considerable ductility during flexural strength tests.
Strength and Ductility of a Three-Span Externally Post-Tensioned Segmental Box Girder Bridge Model
R. J. G. MacGregor (author) / M. E. Kreger (author) / J. E. Breen (author)
1989
332 pages
Report
No indication
English
Strength and Ductility of a Three-Span Externally Post-Tensioned Segmental Box Girder Bridge Model
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