三元混杂纤维增强高性能混凝土基本力学性能

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发布时间：2020-01-06 00:00:00

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三元混杂纤维增强高性能混凝土基本力学性能

Basic Mechanical Performance of Hybrid Fiber Reinforced High Performance Concrete

２０15年第5期

纤维增强高性能混凝土；抗压强度；劈拉强度；拉压比

Fiber reinforced high-performance concrete; Compressive strengthen; Splitting tensile strength; Ratio of splitting tensile stren

２０15年第5期

1000-4637（2015）05-50-04

国家自然科学基金委青年项目（51108164）

魏贵添，夏冬桃，刘向坤，周博儒

湖北工业大学土木工程与建筑学院，武汉430068）

魏贵添，夏冬桃，刘向坤，周博儒

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1000

摘要：选用钢纤维、杜拉纤维和塑钢纤维，在总体积率不超过1%时，按二元或三元混杂制备混杂纤维增强高性能混凝土,并通过立方体标准试块的基本力学性能试验，研究了三种纤维的混杂方式以及混掺比例对混凝土抗压强度、劈拉强度以及拉压比的影响。研究结果表明，钢纤维-塑钢纤维-杜拉纤维三元混杂对混凝土的抗压强度影响并不明显，但能显著改善混凝土试块破坏时的延性；适宜比例的钢纤维、塑钢纤维与杜拉纤维混杂可显著改善基体混凝土的劈拉韧性，使劈拉强度提高30%～55%，拉压比增大到1/17～1/15；钢纤维/塑钢纤维/杜拉纤维体积掺量分别为0.7%、0.19%、0.11%时混杂纤维的复合增强效果最好，高性能混凝土拉压比达到1/15.1。 Abstract: The steel fiber, modified polypropylene fiber and polypropylene fiber are used to be reinforcement in concrete and the total volume fraction of hybrid fibers is not more than 1%. Based on the results of the compressive test and splitting tensile test, the effects of fiber volume fraction and hybrid mode on mechanical properties of the concrete are investigated. The results show as follows: the use of the hybrid fibers have no significantly effect on the compressive strengthen of plain concrete, while it can improve the compressive toughness of plain concrete effectively; the mixture of the three different fibers in a suitable combination can more significantly improve the splitting toughness and the ration of tensile to compressive strength of the concrete with respectively increasing by 30%～55% and 1/17～1/15; when adding 0.7% steel fiber, 0.19% modified polypropylene fiber and 0.11% polypropylene fiber, the optimal result of hybrid fiber reinforced high-performance concrete occurs, with the ratio between splitting tensile strength and compressive strength increasing to more than 1/15.1.

英文名 : Basic Mechanical Performance of Hybrid Fiber Reinforced High Performance Concrete

刊期 : ２０15年第5期

关键词 : 纤维增强高性能混凝土；抗压强度；劈拉强度；拉压比

Key words : Fiber reinforced high-performance concrete; Compressive strengthen; Splitting tensile strength; Ratio of splitting tensile stren

刊期 : ２０15年第5期

DOI :

文章编号 : 1000-4637（2015）05-50-04

基金项目 : 国家自然科学基金委青年项目（51108164）

作者 : 魏贵添，夏冬桃，刘向坤，周博儒

单位 : 湖北工业大学土木工程与建筑学院，武汉430068）

魏贵添，夏冬桃，刘向坤，周博儒

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摘要

参数

结论

参考文献

引用本文

Abstract: The steel fiber, modified polypropylene fiber and polypropylene fiber are used to be reinforcement in concrete and the total volume fraction of hybrid fibers is not more than 1%. Based on the results of the compressive test and splitting tensile test, the effects of fiber volume fraction and hybrid mode on mechanical properties of the concrete are investigated. The results show as follows: the use of the hybrid fibers have no significantly effect on the compressive strengthen of plain concrete, while it can improve the compressive toughness of plain concrete effectively; the mixture of the three different fibers in a suitable combination can more significantly improve the splitting toughness and the ration of tensile to compressive strength of the concrete with respectively increasing by 30%～55% and 1/17～1/15; when adding 0.7% steel fiber, 0.19% modified polypropylene fiber and 0.11% polypropylene fiber, the optimal result of hybrid fiber reinforced high-performance concrete occurs, with the ratio between splitting tensile strength and compressive strength increasing to more than 1/15.1.

关键词:

纤维增强高性能混凝土；抗压强度；劈拉强度；拉压比

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三元混杂纤维增强高性能混凝土基本力学性能

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