Case Study on the 20 Years Propagation of Carbonation in Existing Concrete Facades and Balconies

IF 0.7 Q4 CONSTRUCTION & BUILDING TECHNOLOGY Nordic Concrete Research Pub Date : 2019-06-01 DOI:10.2478/ncr-2019-0004

J. Lahdensivu, Elina Lahdensivu, A. Köliö

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Abstract

Abstract In the most service life models of reinforced concrete structures the initiation phase is the most crucial, because according to models, service life of the structure will end underestimation on conservative side when carbonation achieves the reinforcement for the first time. The square root model is widely used in predicting carbonation depth of reinforced concrete. The model is based on diffusion laws and thereby arguable for inhomogeneous concrete. The model was evaluated by field measurements from one existing concrete building by conducting condition investigation twice at a time interval of 20 years. Samples were taken from exposed aggregate concrete sandwich panels and balcony side panels. Compared to the data collected from large number of buildings, the measured carbonation rates were very common for Finnish concrete buildings made during the 1960s and 1970s. According to this study, in solid concrete the progress of carbonation of concrete can be predicted reliably with Fick’s second law. This model, however, gives too pessimistic predictions for concrete suffering from freeze-thaw damage. Therefore, a new model has been presented for damaged concrete.

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现有混凝土立面和阳台20年的碳化传播案例研究

摘要在大多数钢筋混凝土结构使用寿命模型中，起始阶段是最关键的，因为根据模型，当碳化第一次达到配筋时，结构的使用寿命会保守地结束低估。平方根模型广泛应用于钢筋混凝土碳化深度的预测。该模型基于扩散定律，因此对于非均匀混凝土是有争议的。通过对某既有混凝土建筑每隔20年进行两次状况调查，对该模型进行了现场测量。样品取自暴露的混凝土夹层板和阳台侧板。与从大量建筑物收集的数据相比，测量到的碳化率在20世纪60年代和70年代建造的芬兰混凝土建筑物中非常普遍。根据本研究，在固体混凝土中，用菲克第二定律可以可靠地预测混凝土碳化的进程。然而，该模型对混凝土遭受冻融破坏的预测过于悲观。因此，提出了一种新的混凝土损伤模型。

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Nordic Concrete Research CONSTRUCTION & BUILDING TECHNOLOGY-

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