Load Effects of ASR-induced Expansion in Reinforced Concrete and Their Consequences for Structural Assessment

IF 0.7 Q4 CONSTRUCTION & BUILDING TECHNOLOGY Nordic Concrete Research Pub Date : 2023-07-01 DOI:10.2478/ncr-2023-0001

Kathrine Mürer Stemland, H. Johansen, T. Kanstad

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Abstract

Abstract This paper describes the structural effects of ASR expansion in reinforced structures. It proposes models and procedures for calculating the strains in the concrete caused by the reinforcement, the load effects in statically indeterminate structures and the cross-sectional capacities. Three models are described to include variations of the ASR expansion in a section. Model 1 for constant or linearly varying ASR expansion, Model 2 for an expansion variation in different parts of a cross-section and Model 3 for a particular case of different expansion in subsections of the cross-section. The models are exemplified by calculations based on input data from one relevant bridge, the 70 years old Elgeseter bridge in Trondheim, Norway. This is done to illustrate various aspects of the calculation methods and show the structural consequences of the ASR expansion. The results correlate with the bridge’s observed structural behavior and assumed expansion. This paper also illustrates the importance of coordinating inspection, material testing and structural strength analysis to obtain reliable assessment.

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钢筋混凝土asr诱发膨胀的荷载效应及其对结构评估的影响

摘要本文介绍了钢筋结构中ASR膨胀的结构效应。提出了钢筋引起的混凝土应变、超静定结构荷载效应和截面承载力的计算模型和计算方法。描述了三个模型，其中包括ASR扩展的变化。模型1为恒定或线性变化的ASR膨胀，模型2为截面不同部分的膨胀变化，模型3为截面分段不同膨胀的特定情况。这些模型是通过一个相关桥梁的输入数据来计算的，这个桥梁是挪威特隆赫姆的有70年历史的埃尔格斯特桥。这样做是为了说明计算方法的各个方面，并显示ASR扩展的结构后果。结果与桥梁的观察结构行为和假设膨胀相一致。本文还说明了协调检验、材料试验和结构强度分析以获得可靠评估的重要性。

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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Nordic Concrete Research CONSTRUCTION & BUILDING TECHNOLOGY-

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