Affiliation:
1. Laboratoire de Mécanique & Matériaux du Génie Civil – L2MGC CY Cergy Paris Université Neuville‐sur‐Oise France
2. CY Institute for Advanced Studies Neuville‐sur‐Oise France
3. Department of Civil, Environmental and Architectural Engineering University of Padova Padova Italy
Abstract
AbstractThe paper investigates the effect of high temperature exposure on the performance of concrete confined through textile/fabric‐reinforced composites. Small‐scale cylindrical specimens (150 × 300 mm) were confined using two types of carbon fibers (dry and epoxy‐resin coated). For the sake of comparison, two confining layers were applied to all specimens. After curing, cylinders were exposed to four ranges of increasing temperatures—being 20°C (ambient), 80°C, 100°C, and 250°C and, after cooling down, were tested under compressive cyclic loading. The experimental results show that thermal stress significantly influences the confinement effectiveness of textile‐reinforced composites. Exposure to high temperatures reduces the ultimate confined strength and significantly influences the overall axial stress–strain behavior.