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Composites: Mechanics, Computations, Applications: An International Journal
ESCI SJR: 0.354 SNIP: 0.655 CiteScore™: 1.2

ISSN 印刷: 2152-2057
ISSN オンライン: 2152-2073

Composites: Mechanics, Computations, Applications: An International Journal

DOI: 10.1615/CompMechComputApplIntJ.v3.i4.20
pages 307-329

PREDICTIVE MULTISCALE MODEL OF DELAYED DEBONDING FOR CONCRETE MEMBERS WITH ADHESIVELY BONDED EXTERNAL REINFORCEMENT

Paolo Foraboschi
University IUAV di Venezia, ex Convento delle Terese, Dorsoduro 2206; 30123 − Venice, Italy

要約

The research described in this paper relates to flexural concrete members strengthened by means of external reinforcement bonded adhesively onto the surface, in particular, by fiber-reinforced polymeric strips, sheets, or laminates. The research is specifically devoted to external reinforcement being already in tension under a dead load or a low fraction of live load. The concrete cover exhibits initial flaws, which were unimportant when a member was not externally reinforced, but that may give rise to slow crack propagation up to delayed debonding when the member is externally reinforced. This paper presents a model for predicting the delayed debonding. The common debonding models, including code provisions, focus mainly on the structural and material scales, and thus ignore delayed failure. On the contrary, this new model focusses on the mesoscale, which considers the velocity of crack growth that leads to debonding. While on the nanoscale and microscale the crack velocity depends on the microstructure, on the mesoscale the crack velocity depends on the interfacial bond shear stresses and crack length. This dependence can be synthetized by the ratio between the mode II stress intensity factor, KII and its critical value KIIC The model describes the delayed debonding in terms of interaction between bond shear stress and time (ultimate domain maximum bond shear stress versus delayed time).


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