超高性能混凝土受弯性能的断裂韧性

IF 0.5 Q4 ENGINEERING, CIVIL
E. Manolova
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引用次数: 0

摘要

本文介绍了创新结构材料-超高性能混凝土(UHPC)的断裂韧性,并通过弯曲性能进行了评价。通过静载荷测定材料性能采用纤维增强混凝土弯曲性能的标准试验方法(ASTM C 1609和ASTM C 1018)。断裂韧性是利用伺服控制测试系统对简支梁在三点载荷作用下的载荷-挠度曲线进行测试得到的各种变形参数来估计的。该方法通过多种机制改变了UHPC的抗裂能力、断裂韧性和吸能能力,从而评估了嵌入纤维增强材料对改善其断裂行为的贡献。根据P-δ(载荷-挠度)响应和P-e(载荷-拉伸区纵向变形)响应,确定了第一裂纹的位置,并将其用于计算两个韧性指标I5和I10。不同尺寸的钢纤维组合形成复合材料,同时具有更高的抗裂性、首次裂纹形成、延展性和峰后残余强度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fracture toughness of ultra high performance concrete by flexural performance
This paper describes the fracture toughness of the innovative structural material - Ultra High Performance Concrete (UHPC), evaluated by flexural performance. For determination the material behaviour by static loading are used adapted standard test methods for flexural performance of fiber-reinforced concrete (ASTM C 1609 and ASTM C 1018). Fracture toughness is estimated by various deformation parameters derived from the load-deflection curve, obtained by testing simple supported beam under third-point loading, using servo-controlled testing system. This method is used to be estimated the contribution of the embedded fiber-reinforcement into improvement of the fractural behaviour of UHPC by changing the crack-resistant capacity, fracture toughness and energy absorption capacity with various mechanisms. The position of the first crack has been formulated based on P-δ (load- deflection) response and P-e (load - longitudinal deformation in the tensile zone) response, which are used for calculation of the two toughness indices I5 and I10. The combination of steel fibres with different dimensions leads to a composite, having at the same time increased crack resistance, first crack formation, ductility and post-peak residual strength.
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