Influence of Mineral Admixtures on the Resistance to Sulfuric Acid and Sulfate Attack in Concrete

Bae, Su-Ho; Park, Jae-Im; Lee, Kwang-Myong

doi:10.4334/jkci.2010.22.2.219

Cited by 14 publications

(1 citation statement)

References 9 publications

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“…However, the XRD patterns for all samples showed a similar peak intensity of ettringite regardless of the application of bacteria. This is thought to be because ettringite loses stability in a low pH environment such as sulfuric acid solution and is easily converted to gypsum and aluminum sulfate [44]. Figure 14 shows the result of mass variation due to the thermal decomposition of hydrates in the samples taken from the concrete surface below the coating material.…”

Section: Chemical Property Evaluation Through Surface Analyzing Techniques (Xrd and Tga)mentioning

confidence: 99%

Enhancement of Strength and Resistance to Sulfate Attack in Bio-Coating Material through Negative Pressure Method for Bacteria Immobilization

2021

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In recent years, many studies have been performed on the crack repairing technique in concrete or the protection of the concrete surface against sulfate ions. Bacterial immobilization and survival rate are the dominant influencing factors for the repair of concrete. In this study, a negative pressure method (NPM) was developed to forcibly remove air in the porous materials of concrete, which was applied for surface repair through bio-coating using Rhodobacter capsualtus. For normal repair—repair using the conventional simple soaking method (SSM) and repair through NPM—various evaluations of the concrete strength and durability were performed. Since a reinforced concrete (RC) structure for the application of these repair methods is a sewer pipe exposed to sulfate ingress, variations in concrete mass and strength were analyzed by the accelerated sulfate resistance test. The diffusion coefficient of the sulfate ion in the repair materials and the bacterial count after the accelerating test were also measured. In order to investigate the changes in the properties of the concrete hydrates, surface analyses with SEM, XRD, and TGA were carried out on the concrete under the repair layer after the tests. In all the experimental results, the bacterial immobilization rate was evaluated, and the high immobilization rate indicates the excellent shielding of sulfate ions as well as improves the survival rate of bacteria. This not only improves the service life of the coating repair but also extends the service life of the structure itself. As a result of analyzing the composition of concrete protected by different types of repair, the results most similar to the general concrete composition without sulfate attack were obtained in the case of applying NPM, which shows the least damage from sulfate attack.

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Section: Chemical Property Evaluation Through Surface Analyzing Techniques (Xrd and Tga)mentioning

confidence: 99%