Performance of Fiber Reinforced Lightweight and Normal Weight in Simulated Marine Environment

SP-186: High-Performance Concrete: Performance and Quality of Concrete Structures Pub Date : 1999-05-01 DOI:10.14359/5563

C. Ong, T. Bremner, T. Holm, S. R. Boyd

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Abstract

Results of an experimental investigation on the performance of cracked fiber reinforced concrete in a simulated marine environment are presented. A total of 111 prismatic specimens (150x150x510 mm) comprising both lightweight and normal weight concretes were used in this investigation. Cracked specimens with crack sizes of "hairline", 0.25 mm, 1.0 mm, and uncracked specimens were exposed in either simulated seawater for up to a period of 7 years or 5300 alternate wetting and drying cycles. It was found, for both lightweight and normal weight concrete, that the strength development of uncracked specimens is not hampered by alternate wetting and drying. At the end of 7 years exposure, compressive strength gain of 90% was observed over the seven day moist cured strength for both types of concrete. Corresponding uncracked prismatic specimens showed approximately 25% flexural strength gain; however their post-cracking strength decreased under a prolonged period of alternate wetting and drying. Precracked specimens with cracks of up to 0.25 mm showed improvement in load carying capacity up to 1440 wetting and drying cycles. However, specimens with cracks of 1.0 mm showed a reduction in load carrying capacity.

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纤维增强轻量化与正常重量在模拟海洋环境中的性能

本文介绍了在模拟海洋环境下纤维混凝土开裂性能的试验研究结果。在本次调查中，共使用了111个棱柱形试件(150x150x510 mm)，包括轻型和正常重量混凝土。将裂纹尺寸分别为“发际线”、0.25 mm、1.0 mm和未裂纹的试件分别暴露在模拟海水中长达7年或5300次干湿交替循环中。研究发现，不论是轻量混凝土还是正常重量混凝土，未开裂试件的强度发展都不受干湿交替的影响。在7年的暴露结束时，两种类型的混凝土的抗压强度比7天的湿固化强度增加了90%。相应的未开裂柱形试件的抗弯强度增加约25%;但在长时间的干湿交替作用下，其开裂后强度有所下降。裂缝达0.25 mm的预裂试件在1440次干湿循环中表现出承载能力的提高。而裂纹为1.0 mm的试件，其承载能力有所降低。

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-186: High-Performance Concrete: Performance and Quality of Concrete Structures

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