Experimental Study on Concrete Cylinders Confined with Various FRP under Uniaxial Compression

SP-238: International Symposium on Confined Concrete Pub Date : 2006-10-01 DOI:10.14359/18283

Gang Wu, Zhishen Wu, Zhitao Lu, Y.B. Ando

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引用次数: 8

Abstract

External confinement of concrete by means of FRP composites can significantly enhance its strength and ductility as well as result in large energy absorption capacity. The present paper focuses on studying the behavior of concrete cylinders confined with hybrid FRP composites. A total of thirty 150 mm by 300 mm cylinders were tested, which included 3 plain concrete specimens, 12 concrete cylinders confined with one kind of FRP, and 20 specimens confined with hybrid FRP sheets. Experimental parameters included the different types of FRP sheets, different hybrid ratio of FRP. The relationships of axial stress-axial strain of FRP-confined concrete are studied, as well as the variation of Poisson's ratio of FRP confined concrete. Behaviors of concrete cylinders confined with hybrid FRP and counterpart specimens confined with one kind of FRP sheet are compared. Finally, some equations are proposed to evaluate the ultimate strength and strain of concrete cylinders confined with hybrid FRP. This paper provides a framework for better understanding of confining effects of concrete cylinders confined with different FRP composites.

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不同FRP约束混凝土柱在单轴压缩下的试验研究

FRP复合材料对混凝土进行外约束可以显著提高混凝土的强度和延性，并具有较大的吸能能力。本文主要研究混杂玻璃钢复合材料约束下混凝土筒体的受力性能。试验共对30个150mm × 300mm筒体进行了试验，其中素面混凝土试件3个，一种FRP布约束的混凝土试件12个，混合FRP布约束的试件20个。试验参数包括不同类型的玻璃钢片材、不同的玻璃钢混杂比。研究了FRP约束混凝土的轴向应力-轴向应变关系以及FRP约束混凝土泊松比的变化规律。比较了混合FRP布约束下混凝土圆柱体与同一种FRP布约束下试件的受力性能。最后，提出了复合FRP约束下混凝土筒体极限强度和极限应变的计算公式。本文为更好地理解不同FRP复合材料约束下混凝土筒体的围压效果提供了一个框架。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SP-238: International Symposium on Confined Concrete

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