Abstract
Concrete bonded whitetoppings and overlays usually fail due to a loss of bond between the layers as a consequence of direct actions (traffic loads) or indirect actions (temperature differences or shrinkage in the layers). These actions generate stresses in the interface that may exceed the strength capacity of the union between layers. This paper proposed an innovative solution for this problem that consisted of placing mechanical connectors in the overlay interfaces to provide them with post-cracking strength and maintaining the monolithic response of the pavement. Three experimental programs on real-scale pavements with two types of mechanical connectors were studied under heavy traffic in terms of structural performance. Findings reveal that this technique might be an excellent solution to the problem of interfacial debonding.
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference50 articles.
1. Evaluación de la sostenibilidad de carreteras;Aguado;Carreteras,2017
2. Mives multicriteria assessment of urban-pavement conditions: application to a case study in Barcelona
3. Guide to the Design of Concrete Overlays Using Existing Methodologies;Torres,2012
4. Thin and Ultra-Thin Whitetopping—A Synthesis of Highway Practice NCHRP Synthesis;Rasmussen,2004
5. Interface Shear Stress in Overlaid Concrete Pavements
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