Behaviour of unconfined and FRP-confined rubberised concrete in axial compression
Metadatos
Mostrar el registro completo del ítemAutor
Raffoul, Samar; García, Reyes; Escolano-Margarit, David; Guadagnini, Maurizio; Hajirasouliha, Iman; Pilakoutas, KyprosEditorial
Elsevier
Materia
Rubberised concrete FRP confinement Highly-deformable concrete
Fecha
2017-08-30Referencia bibliográfica
RAFFOUL, Samar, et al. Behaviour of unconfined and FRP-confined rubberised concrete in axial compression. Construction and Building Materials, 2017, vol. 147, p. 388-397.
Patrocinador
Department of Civil and Structural Engineering. The University of SheffieldResumen
This article investigates the use of externally bonded Fibre Reinforced Polymer (FRP) jackets to develop a novel high-strength, highly-deformable FRP Confined Rubberised Concrete (CRuC). Sixty rubberised concrete (RuC) cylinders were tested in axial compression. The cylinders were produced using recycled tyre rubber to replace i) 0–100% fine or coarse aggregate volume or ii) a replacement of 40% or 60% of the total aggregate volume. Six cylinders of the latter mix were then confined with either two or three layers of Aramid FRP sheets. The results indicate that the use of high rubber contents in concrete lead to premature microcracking and lateral expansion, the latter of which can be used to activate the FRP confinement earlier and achieve higher confinement effectiveness. The CRuC cylinders reached compressive strengths of up to 75 MPa and unprecedented ultimate axial strains up to 5%, i.e. about fourteen times larger than those of normal concrete (0.35%). Such novel high-strength, highly-deformable CRuC is of great value to engineers and can be used for structural applications where large deformability is required.