Abstract
Concrete structures undergo different forms of damage during their service life. The aim of this study is to identify the most common forms of concrete damage in field conditions. A number of concrete elements and structures were visually inspected and the damage was photographed. The damage phenomena covered are delamination, popout, spalling, scaling, drying shrinkage cracking, corrosion-induced cracking, map cracking, rust and salt stains, discoloration, and mold and moss growths. The probable reasons for these damage phenomena are discussed in this study. Moreover, this study highlights how concrete structures can be protected from the aforementioned forms of damage by using sealer and coating systems as surface treatments. Different sealer and coating systems, emphasizing their selection for specific uses, installation on concrete substrate, effects on concrete durability, performance criteria, and performance evaluation methods have been discussed. Furthermore, some recommendations are given to improve the performance of concrete sealer and coating systems for the protection of concrete structures in field conditions.
Highlights
Concrete is one of the most widely used construction materials because of its affordability and versatility
The following test methods can be used to evaluate the performance of sealer and coating systems installed on concrete substrates
ASTM D822/D822M: Standard practice for filtered open-flame carbon-arc exposures of paint and related coatings [76] and ASTM D4587: Standard practice for fluorescent UV-condensation exposures of paint and related coating [88]. These practices can be used in the evaluation of the accelerated weathering resistance of concrete sealers or coatings
Summary
Concrete is one of the most widely used construction materials because of its affordability and versatility. Concrete is not an indestructible construction material; different forms of damage occur over time under service and environmental conditions, causing cosmetic and structural flaws in concrete structures [1]. The performance of concrete structures gets affected during their service life. The level of damage in concrete structures depends on the severity of surrounding environment, the mix composition of concrete, and the degree of quality control during concrete construction [2,3,4]. The climatic conditions in many regions of the world are not very favorable for concrete structures. The construction of durable concrete structures is very challenging for builders due to harsh winter and/or hot summer climates
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