Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Types and Causes of Concrete Damage
This chapter highlights the susceptibility of concrete structures to various forms of damages. Chemical attack poses a common threat, with acids, chlorides, salts, and alkalines being significant factors. Furthermore, concrete deterioration is contributed to by sulfate attack and carbonation, while alkali-aggregate reaction and alkali-carbonate reactivity also hold potential for damage. External factors play a significant role in concrete damage as well. Over time, abrasion, erosion, and erosion cavitation gradually degrade the concrete surface. Exposure to fire or prolonged high temperatures compromises the structural integrity of concrete. Volume changes, such as shrinkage or expansion, can result in thermal cracking. Additionally, surface defects impact both the aesthetics and performance of concrete structures. To ensure the long-lasting durability of concrete structures, it is crucial to identify and address these various types and causes of damage. The implementation of proper maintenance, timely repairs, and preventive measures plays a pivotal role in mitigating these issues and extending the lifespan of concrete infrastructure. By effectively managing these risks, the integrity and longevity of concrete structures can be preserved.
Types and Causes of Concrete Damage
This chapter highlights the susceptibility of concrete structures to various forms of damages. Chemical attack poses a common threat, with acids, chlorides, salts, and alkalines being significant factors. Furthermore, concrete deterioration is contributed to by sulfate attack and carbonation, while alkali-aggregate reaction and alkali-carbonate reactivity also hold potential for damage. External factors play a significant role in concrete damage as well. Over time, abrasion, erosion, and erosion cavitation gradually degrade the concrete surface. Exposure to fire or prolonged high temperatures compromises the structural integrity of concrete. Volume changes, such as shrinkage or expansion, can result in thermal cracking. Additionally, surface defects impact both the aesthetics and performance of concrete structures. To ensure the long-lasting durability of concrete structures, it is crucial to identify and address these various types and causes of damage. The implementation of proper maintenance, timely repairs, and preventive measures plays a pivotal role in mitigating these issues and extending the lifespan of concrete infrastructure. By effectively managing these risks, the integrity and longevity of concrete structures can be preserved.
Types and Causes of Concrete Damage
Engineering Materials
Asmara, Yuli Panca (Autor:in)
05.09.2023
20 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
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