Experimental Research on Material Behaviour of Glass Fiber Reinforced Polymer Bars in Tension

Wodajo Sara Desalegn, Weldeselassie Danayt Abraham, X. Fang, Yan Hongmei, Liang Min
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Abstract

Glass Fiber Reinforced Polymer (GFRP) rebars have been widely used to solve the corrosion problem of steel bars in concrete structures. It has been produced as a lightweight and corrosion-resistant than steel reinforcement in many structural applications. They are regarded as a promising substitute for steel bars in concrete infrastructures. It is necessary to test GFRP bars to fully understand their material properties to ensure the safe and efficient use of the material. In this study, five specimens of each type of GFRP bars with a diameter of 6, 8, 10, 12, and 14 mm were tested under tension. Therefore, a total of 25 samples were examined from the same manufacturer. According to ASTM’s recommendations (D7205/D7205M-06) for tensile tests of GFRP bars, the diameter and thickness of the steel pipes for both ends were considered in the preparation of the test specimens to keep the GFRP bars consistent and aligned throughout the experiment. The experimental test results included the stress-strain curves, tensile strength, ultimate strain, and modulus of elasticity. The study showed an accurate result that indicated the tensile strength of the GFRP bars can be expressed by a linear distribution. For a bar diameter of 10mm, the length to diameter ratio Le/db=8 showed a maximum tensile to compressive strength ratio. In the failure results of the test, there were two-mode failures of GFRP bars: fracture failure and pull-out failure of GFRP bars. Most of the specimens had GFRP bar fracture failures, only two specimens (GBT1-10-2 and GBT1-10-3) were damaged due to the pull-off of the GFRP bars which was not a typical failure mode.
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玻璃纤维增强聚合物棒材受拉性能试验研究
玻璃纤维增强聚合物(GFRP)钢筋被广泛用于解决混凝土结构中钢筋的腐蚀问题。在许多结构应用中,它比钢筋更轻,更耐腐蚀。它们被认为是混凝土基础设施中钢筋的有前途的替代品。有必要对GFRP筋进行测试,以充分了解其材料性能,以确保材料的安全高效使用。本研究选取直径为6、8、10、12、14 mm的GFRP筋各5个试件进行拉伸试验。因此,同一厂家共检测了25个样品。根据ASTM关于GFRP筋拉伸试验的建议(D7205/D7205M-06),在制备试件时考虑了两端钢管的直径和厚度,使GFRP筋在整个试验过程中保持一致和对齐。试验结果包括应力-应变曲线、抗拉强度、极限应变和弹性模量。研究结果表明,GFRP筋的抗拉强度可以用线性分布来表示。当棒材直径为10mm时,长径比为Le/db=8时,其抗拉强度比最大。在试验破坏结果中,GFRP筋存在断裂破坏和拉出破坏两种破坏模式。大部分试件均为GFRP筋断裂破坏,仅有2个试件(GBT1-10-2和GBT1-10-3)因GFRP筋的拉脱而损坏,这不是典型的破坏模式。
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