Hardened AAM Properties
Patricia Kara De Maeijer (Riga Technical University, Universiteit Antwerpen)
Kruthi Kiran Ramagiri (MYK Laticrete)
Mladena Lukovic (TU Delft - Concrete Structures)
Laura Rossi (Karlsruhe Institut für Technologie)
Giulia Masi (University of Bologna)
Arkamitra Kar (Birla Institute of Technology and Science, Pilani)
Pujitha Ganapathi Chottemada (Birla Institute of Technology and Science, Pilani)
Juho Yliniemi (University of Oulu)
Kazuo Ichimiya (Oita National College of Technology)
Wei Sha (Queen's University Belfast)
Frank Dehn (Karlsruhe Institut für Technologie)
Guang Ye (TU Delft - Materials and Environment)
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Abstract
The introduction of alkali-activated concrete (AAC) technology to the construction industry represents a significant step toward a sustainable development and a cleaner environment by reducing environmental pollution. Currently, its application is relatively limited compared to traditional Portland cement based concrete (PCC). However, AAC has a remarkable potential for future growth and innovation despite several associated challenges and limitations. The current Chapter highlights recent progress in AAC mix design and its mechanical properties, paving the way for a broader application. The universally recognized international standards and codes for AAC, its mix design and evaluation of its long-term performance are still emerging. Unlike conventional PCC, AAC encompasses a wide class of materials with wide varying chemical composition and reaction mechanisms, depending on the choice of constituent materials (precursors and alkali activators). The mechanical properties, while diverse, reflect the flexibility of the material in response to different compositions and curing conditions. Though, non-uniformity makes consistent AAC usage challenging on the scale of PCC. Nevertheless, ongoing research and development efforts by RILEM TC 294-MPA are dedicated to tackling these challenges and enhancing the efficacy and widespread adoption of AAC technology.