Finite Element Modeling of Bond Behavior of FRP and Steel Plates

Finite Element Modeling of Bond Behavior of FRP and Steel Plates

Strengthening systems for existing reinforced concrete (RC) structures are increasingly needed due to several problems such as degradation of materials over the time, underdesign, serviceability or seismic upgrading, or new code requirements. In the last decades, strengthening by fibers composite ma...

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Bibliographic Details
Published in:Materials Vol. 14; no. 4; p. 757
Main Authors: Ciampa, Elena, Ceroni, Francesca, Pecce, Maria Rosaria
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 05-02-2021
MDPI
Subjects:
3D finite element model
Adhesives
bond behavior
Composite materials
Concrete
Ductility
externally bonded strengthening
Finite element method
Formulations
FRP
Guidelines
Mathematical models
Mechanical properties
Reinforced concrete
Reinforcing steels
Shear stress
Shear tests
steel plate
Steel plates
Strengthening
Three dimensional models
concrete
externally bonded strengthening
steel plate
3D finite element model
FRP
bond behavior
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Summary:Strengthening systems for existing reinforced concrete (RC) structures are increasingly needed due to several problems such as degradation of materials over the time, underdesign, serviceability or seismic upgrading, or new code requirements. In the last decades, strengthening by fibers composite materials applied with various techniques (FRP, FRCM, NSM) were largely investigated and theoretical formulations have been introduced in national and international design guidelines. Although they are an excellent strengthening solution, steel plates may represent still a valid traditional alternative, due to low costs, ductile stress-strain behavior, simple and fast mounting with possibility of reusing the material. Guidelines for a correct design are still lack and, therefore, detailed models and design formulas are needed. In this paper, the bond behavior at the plate-concrete interface, which plays a key role for the effectiveness of the strengthening system, is analyzed by means of 3D finite element models calibrated on experimental results available in literature. Parametric analyses were carried out by changing some meaningful parameters.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma14040757