Effect of Elevated Temperature on the Strength and Ultrasonic Pulse Velocity of Glass Fiber and Nano-Clay Concrete

机译：升高温度对玻璃纤维和纳米粘土混凝土强度和超声波脉冲速度的影响

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The objectives of this paper are to find the strength and ultrasonic pulse velocity (UPV) of concrete adding admixtures by glass fiber and nano-clay. Residual strength and residual UPV of concrete specimens subjected to elevated temperatures are investigated. Experiment results showed that adding glass fiber and nano-clay would be beneficial for the later-age compressive strength of concrete. Adding nano-clay could considerably increase the flexural and split strength and the toughness of concrete. It is revealed that adding nano-clay could significantly maintain residual compressive and split strength of specimens after high temperature exposure. Regression analysis results revealed that the residual strength and residual UPV of concrete specimens had a high relevance after elevated temperatures exposure.

机译：本文的目的是通过玻璃纤维和纳米粘土找到混凝土添加混合物的强度和超声波脉冲速度（UPV）。研究了经受升高的温度的混凝土试样的残余强度和残余UPV。实验结果表明，添加玻璃纤维和纳米粘土对混凝土的后期抗压强度有益。添加纳米粘土可大大提高混凝土的弯曲和分裂强度和韧性。揭示了在高温暴露后，添加纳米粘土可以显着地保持样品的残留压缩和分裂强度。回归分析结果表明，在升高的温度暴露后，混凝土样本的残余强度和残余UPV具有高相关性。

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《International Conference on Structures and Building Materials》|2011年||共8页
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作者
ChungMing Ho; WeiTsung Tsai;
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中图分类 TB3-532;
关键词
Glass Fiber; Nano-Clay; Elevated Temperature; Residual Strength; Residual Ultrasonic Pulse Velocity;

机译：玻璃纤维;纳米粘土;温度升高;剩余强度;残余超声波脉冲速度;

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1. Evaluating Residual Compressive Strength Of Concrete At Elevated Temperatures Using Ultrasonic Pulse Velocity [J] . Hsuanchih Yang, Yiching Lin, Chiamen Hsiao, Fire Safety Journal . 2009,第1期

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3. Estimation of compressive strength of self-compacted concrete with fibers consisting nano-SiO_2 using ultrasonic pulse velocity [J] . Aref Sadeghi Nik, Omid Lotfi Omran Construction and Building Materials . 2013,第jula期

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4. Effect of Elevated Temperature on the Strength and Ultrasonic Pulse Velocity of Glass Fiber and Nano-Clay Concrete [C] . ChungMing Ho, WeiTsung Tsai International Conference on Structures and Building Materials . 2011

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5. A Study of Crack Widths of Concrete Structures Reinforced with Glass Fibers Reinforced Plastic Rebars at Elevated Temperatures [D] . Dhameliya, Chirag. 2019

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8. Elevated Temperature Aging of Glass Fiber Reinforced Vinyl Ester and Isopthalic Polyester Composites in Water, Salt Water and Concrete Pore Solution [R] . Chin, J. W., Hughes, W. L., Signor, A. 2010

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Effect of Elevated Temperature on the Strength and Ultrasonic Pulse Velocity of Glass Fiber and Nano-Clay Concrete

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