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http://dx.doi.org/10.5762/KAIS.2013.14.7.3562

Evaluation of Tensile Material Properties and Confined Performance of GFRP Composite Due to Temperature Elevation  

Jung, Woo-Young (Dep. of Civil Engineering, Gangneung-Wonju National University)
Kim, Jin-Sup (Dep. of Civil Engineering, ERI, Gyeongsang National University)
Kwon, Min-Ho (Dep. of Civil Engineering, ERI, Gyeongsang National University)
Publication Information
Journal of the Korea Academia-Industrial cooperation Society / v.14, no.7, 2013 , pp. 3562-3569 More about this Journal
Abstract
The performance of concrete structure decreases with change in time and the external environment. In order to reinforce the structure, the research about new material development and application of newly developed materials are widely conducted. In the case of composite FRP, it received good attention in the academia due to its high intensity-weight ratio, excellent corrosion resistency as well as good workability. When applying at the construction field, however, the utilization of FRP did not increase as much due to lack of reliability and design standard. Current study investigated the material characteristics during the temperature change at high temperature and the structural behavior from restraint effect for GFRP reinforcing materials. Two experimental variables were set in this study: GFRP reinforcements due to tensile properties of temperature and restraint compression effects. Three concrete specimen were selected for each set temperatures. For this reason, as a variable to experiment with the effects confined compression concrete members value and tensile properties with temperature reinforcement GFRP, experiment produced three pieces each for each set temperature, the concrete specimen, which is confined in the GFRP was selected each I did. For the temperature change during the experiment, the concrete specimen were mounted in order to expose to experimental high temperature for certain period of time. For compression performance evaluation, reinforcement effect from horizontal constraint of the fiber were measured using an Universal Material Testing Machine (UTM). Finally, this study revealed that the binding characteristics of GFRP materials from temperature change decreased. Also, this study showed that the maximum compression intensity decreased as the temperature increased up to $150^{\circ}C$ in the constraints ability of the GFRP reinforcements during the horizontal constraint of concrete.
Keywords
Confinement; Compressure strength; FRP; Glass fiber; Temperature;
Citations & Related Records
Times Cited By KSCI : 5  (Citation Analysis)
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