Reprint
Innovations in Durability of Sustainable Concrete Materials
Edited by
November 2023
220 pages
- ISBN978-3-0365-9105-6 (Hardback)
- ISBN978-3-0365-9104-9 (PDF)
This book is a reprint of the Special Issue Innovations in Durability of Sustainable Concrete Materials that was published in
Business & Economics
Environmental & Earth Sciences
Social Sciences, Arts & Humanities
Summary
Welcome to the Reprint of "Innovations in Durability of Sustainable Concrete Materials", a collection presenting cutting-edge research on sustainable and durable concrete. Discover ten insightful manuscripts exploring the various aspects of sustainable concrete technology, from novel materials to advanced modeling methods. This compilation showcases the transformative journey of the concrete industry towards a sustainable future. Join us in this paradigm-shifting exploration at the intersection of durability and sustainability.
Format
- Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
engineered cementitious composites; limestone powder; fly ash; mercury intrusion porosimetry; chloride ions; freeze–thaw; dynamic modulus of elasticity; railway concrete sleepers; fatigue; S–N curve; finite element method (FEM); geometric damage; abrasion; remaining service life; plastic viscosity; self-compacting concrete; yield stress; V-funnel flow; slump flow; L-Box; XGBoost; LightGBM; CatBoost; SHAP; water hyacinth ash; concrete; fresh properties; compressive properties; microstructure properties; durability; sugar cane bagasse ash; cement mortar; curing temperature; life cycle assessment; environmental footprint; ultra-high performance fiber reinforced concrete; durability; sustainability; carbonation resistance; creep and shrinkage; carbonation treatment; parent concrete with FA; recycled aggregate concrete; mechanical properties; MIP; durability; carbonation; sorptivity; chloride; external sulfate attack; alkali-activated materials; self-consolidating concrete; chemical attacks; durability; granulated blast-furnace slag; compressive strength; impact resistance; infiltration rate; physical properties; pore characterization; cotton fibre; cement mortar; waste management; natural fibre; cement composites