Mechanical and environmental loading of concrete beams strengthened with epoxy and polyurethane matrix carbon fiber laminates

Mechanical and environmental loading of concrete beams strengthened with epoxy and polyurethane matrix carbon fiber laminates

► Two epoxy and one polyurethane matrix strengthening systems tested. ► Large-scale beam specimens exposed to 4 different load combinations. ► Epoxy systems show sensitivity to cyclic loading at low stress range. ► The polyurethane system exhibited excellent performance under all load combinations....

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Bibliographic Details
Published in:Construction & building materials Vol. 26; no. 1; pp. 604 - 612
Main Authors: Haber, Zachary B., Mackie, Kevin R., Zhao, Lei
Format: Journal Article
Language:English
Published: Elsevier Ltd 2012
Elsevier B.V
Subjects:
Analysis
Concrete
Cyclic loading
Debonding
Durability
Environmental conditioning
Mechanical properties
Polyurethane composites
Properties
Quality management
Urethanes
United States
Cyclic loading
Durability
Debonding
Polyurethane composites
Environmental conditioning
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Summary:► Two epoxy and one polyurethane matrix strengthening systems tested. ► Large-scale beam specimens exposed to 4 different load combinations. ► Epoxy systems show sensitivity to cyclic loading at low stress range. ► The polyurethane system exhibited excellent performance under all load combinations. Externally-bonded carbon fiber reinforced polymer (CFRP) sheets have become a common material used to retrofit damaged or deteriorated concrete flexural members. This study examines the effects different combinations of cyclic loading, controlled thermal cycling, uncontrolled outdoor environmental exposure, and monotonic loading until failure have on the performance and failure modes of reinforced concrete beams strengthened with externally-bonded CFRP sheets. Twelve large-scale (4.88 m in length) doubly reinforced concrete beams were strengthened with externally-bonded CFRP sheets and tested. Three different unidirectional CFRP strengthening systems were considered; two systems utilizing carbon fiber sheets and epoxy matrices, and a system utilizing pre-impregnated carbon fiber with a water activated polyurethane matrix. Epoxy matrices are commonly used, but polyurethane composite systems have not been rigorously investigated for infrastructure use. Results indicate that moderate cyclic loading and environmental conditioning do not have a significant effect on flexural capacity of strengthened members, but the quality of the field lay-up does have an influence. The performance of the polyurethane system was consistent and insensitive to all loading combinations.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2011.06.063