Abstract
Grouted post-tensioning has evolved to become the construction method of choice for many structures, including bridges. However, instances of corrosion-induced fracture of wires and strands and failure of tendons have occurred as a consequence of either chemically or physically deficient grout (or a combination of these), where the former involves elevated levels of chlorides or free sulfates (or both) and the latter some combination of soft, chalky, separated, segregated grout with free water. In the extreme, there is the possibility of structure collapse. In response to this, a methodology has been developed whereby, first, the initial occurrence of wire and strand fracture and tendon failure and, second, the subsequent rate of fractures/failures can be projected. This was accomplished by relating occurrence of fractures and failures to the extent of wire cross-section loss and its progression with time, as affected by severity of a grout deficiency or deficiencies. Primary inputs to the model include t...
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