Design of Fibre-Reinforced Concrete Structures

IPSI Transactions on Internet Research Pub Date : 2024-01-01 DOI:10.58245/ipsi.tir.2401.09

Bogdan Šakić

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Abstract

Different types of concrete are invented in the past years, in order to improve it`s behaviour for different loading and environmental situations. Among them, fibre reinforced concrete (FRC) is one of the most recently developed concrete types. Design procedures for the FRC elements are included in only a few existing code provisions. Among them, fib Model Code 2010 (MC 2010) provides the biggest amount of necessary information and recommendations in order to design FRC elements. Yet, a lack of the guidelines for the design of elements loaded with different combinations of bending moment and axial force is noticed in the existing code provisions. Therefore, in the scope of this paper, interaction curves for FRC are developed. The interaction curves are developed for both, ultimate limit state (ULS) and serviceability limit state (SLS). Furthermore, example of the use of such interaction curves is given. Comparison in the design of reservoir made of reinforced concrete (RC) and FRC is performed. It is shown that the use of FRC especial benefits design according to SLS, as FRC provides better behaviour regarding crack spacing and crack width of element, while developed interaction curves for SLS significantly decrease the time necessary for such a design.

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纤维增强混凝土结构设计

为了改善混凝土在不同荷载和环境条件下的性能，近年来发明了不同类型的混凝土。其中，纤维增强混凝土（FRC）是最新开发的混凝土类型之一。纤维增强混凝土构件的设计程序仅包含在少数现有规范条款中。其中，《2010 年纤维模型规范》（MC 2010）为设计 FRC 构件提供了最多的必要信息和建议。然而，在现有的规范条款中，我们注意到缺乏对承受不同弯矩和轴力组合的构件进行设计的指导。因此，本文开发了用于 FRC 的相互作用曲线。这些相互作用曲线同时适用于极限状态 (ULS) 和适用性极限状态 (SLS)。此外，本文还给出了使用此类相互作用曲线的示例。对钢筋混凝土（RC）和 FRC 水库的设计进行了比较。结果表明，使用 FRC 特别有利于根据 SLS 进行设计，因为 FRC 在裂缝间距和构件裂缝宽度方面提供了更好的性能，而为 SLS 开发的交互曲线大大减少了此类设计所需的时间。

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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IPSI Transactions on Internet Research

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