Reprint
Supplementary Cementitious Materials in Concrete
Edited by
August 2021
394 pages
- ISBN978-3-0365-1481-9 (Hardback)
- ISBN978-3-0365-1482-6 (PDF)
This is a Reprint of the Special Issue Supplementary Cementitious Materials in Concrete that was published in
Chemistry & Materials Science
Engineering
Physical Sciences
Summary
The articles featured in this Special Issue cover different aspects of the design, testing, and application of various types of supplementary cementitious materials in concrete. The results of the research, conducted by over 50 international universities and scientific centers, prove the great interest in the SCM topic.
Format
- Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
crystalline admixture; chemical exposure; sulphuric acid attack; durability; Xypex; fly ash; substitution strategy; structural concrete; steel reinforcement; limit states; RC beams in bending; carbon footprint; concrete; durability; carbonation modeling; calcareous fly ash; biomass; wood ash; fibrocement; strength; mortar; clean coal combustion; fluidized bed fly ash; microstructure; phase composition; portlandite; unburned carbon; fly ash; slag; soil stabilization; embankment; cement; lime; high temperature; damage; permeability; CEMI and CEMIII; mechanical properties; alkali-activated concrete; fly ash; geopolymer concrete; flexure; beams; fiber-reinforced concrete; crack spacing; tension stiffening; fly ash; bamboo ash; supplementary materials; geopolymer concrete; elevated temperature; high volume fly ash (HVFA); steel reinforcing fiber; jacketing; carbon footprint; substitution strategy; environmental impact; fibre reinforced; alkali-activated; strain hardening; recycled cementitious supplementary material; comprehensive concrete recycling; recycled fine fraction; rehydration reactivity; compressive strength; concrete; ground granulated blast furnace slag; apparent activation energy; equivalent age; construction debris; cement; recycling; circular economy; eco-friendly concretes; fly ash (FA); silica fume (SF); palm oil fuel ash (POFA); rice husk ash (RHA); sewage sludge ash (SSA) and sugarcane bagasse ash (SBA); mine tailings; marble dust; construction and demolition debris (CDD); porous feldspar; activation; compressive strength; substitute material; energy saving concrete; calcined clay; binder; supplementary cementitious materials; cement-based materials; steatite; wood particles; Portland cement; fire performance; mechanical properties; fiber-reinforced concrete; permeability; durability; tensile strength; micro-silica/silica fume; steel fiber; high performance concrete (HPC); self-consolidating concrete (SCC); flowability; durability; freeze-thaw cycle; fire resistance; cement; bentonite; durability; clays; cryogenic condition; GGBS; compressive strength; thermal conductivity; semi-adiabatic test; n/a