A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The innovations in construction materials that have been made due to the development of different varieties of concrete have led to innovations in structural applications and design. This Special Issue mainly focuses on state-of-the-art research progress in high-performance concrete, including the effect and characteristics of fibers on the properties of high-performance concrete, the CO2 curing efficiency of high-performance cement composites, and the effect of nano materials when used in ultra-high-performance concrete. This Special Issue also contains two comprehensive review articles covering the following topics: the role of supplementary cementitious materials in ultra-high-performance concrete and recent progress in nanomaterials in cement-based materials. Readers working towards conducting research on innovative construction materials will be exposed to findings related to this topic in this Special Issue.
The innovations in construction materials that have been made due to the development of different varieties of concrete have led to innovations in structural applications and design. This Special Issue mainly focuses on state-of-the-art research progress in high-performance concrete, including the effect and characteristics of fibers on the properties of high-performance concrete, the CO2 curing efficiency of high-performance cement composites, and the effect of nano materials when used in ultra-high-performance concrete. This Special Issue also contains two comprehensive review articles covering the following topics: the role of supplementary cementitious materials in ultra-high-performance concrete and recent progress in nanomaterials in cement-based materials. Readers working towards conducting research on innovative construction materials will be exposed to findings related to this topic in this Special Issue.
High Performance Concrete
2022-03-21
Miscellaneous
Electronic Resource
English
ultrahigh-performance concrete , nanosilica , dynamic light scattering , zeta potential , pore solution , alkali-activator , GGBFS , Na2O content , Ms (SiO2/Na2O) , workability , setting time , steel fiber , fiber content , aspect ratio , toughness index , high-strength concrete , fibers , smart materials , fiber/matrix bond , physical properties , heat treatment , alkali-activated material , calcium sulfoaluminate-based expansive additive , concrete shrinkage , modulus of elasticity , shrinkage stress , SIFRCC , fiber volume fraction , direct tensile strength , energy absorption capacity , direct tensile test , carbon nanotubes , cement-based materials , concrete infrastructure , graphene , graphene oxide , mechanical strength , nanomaterials , nano-Al2O3 , nano-Fe2O3 , nano-SiO2 , nano-TiO2 , smart infrastructure , slurry-infiltrated fiber-reinforced cementitious composite , high-performance fiber-reinforced cementitious composite , compressive stress , stress-strain relationship , filling slurry matrix , bio-slime , sulfate attack
High-performance concrete: Controlled performance concrete
| Online Contents | 1997
| TIBKAT | 1996
| British Library Online Contents | 1995
| European Patent Office | 2024