| Alkali-activated materials |
137 |
| Eco-efficient cements: Potential economically viable solutions for a low-CO2 cement-based materials industry |
126 |
| One-part alkali-activated materials: A review |
101 |
| 3D printing using concrete extrusion: A roadmap for research |
96 |
| Calcined clay limestone cements (LC3) |
68 |
| Cemdata 18: A chemical thermodynamic database for hydrated Portland cements and alkali-activated materials |
67 |
| Rheological requirements for printable concretes |
65 |
| Vision of 3D printing with concrete - Technical, economic and environmental potentials |
57 |
| Early age mechanical behaviour of 3D printed concrete: Numerical modelling and experimental testing |
56 |
| Changes in in microstructure characteristics of cement paste on carbonation |
44 |
| Carbon dioxide reduction potential in the global cement industry by 2050 |
44 |
| Supplementary cementitious materials: New sources, characterization, and performance insights |
40 |
| Advances in understanding cement hydration mechanisms |
40 |
| Recent progress in low-carbon binders |
39 |
| Rethinking reinforcement for digital fabrication with concrete |
39 |
| Hardened properties of 3D printed concrete: The influence of process parameters on interlayer adhesion |
37 |
| The role of early age structural build-up in digital fabrication with concrete |
37 |
| Mechanical properties and durability performance of concretes with Limestone Calcined Clay Cement (LC3) |
36 |
| Strength enhancement of recycled aggregate pervious concrete using a cement paste redistribution method |
36 |
| Particle-bed 3D printing in concrete construction - Possibilities and challenges |
36 |
| Application of neutron imaging to investigate fundamental aspects of durability of cement -based materials: A review |
35 |
| Investigation of the calcined kaolinite content on the hydration of Limestone Calcined Clay Cement (LC3) |
34 |
| Corrosion resistance of steel fibre reinforced concrete - A literature review |
34 |
| Isothermal calorimetry and in-situ XRD study of the NaOH activated fly ash, metakaolin and slag |
31 |
| Pore solution composition of alkali-activated slag/fly ash pastes |
31 |
| Reactivity of supplementary cementitious materials (SCMs) in cement blends |
31 |
| Fly ash and slag |
31 |
| Hydration and rheology control of concrete for digital fabrication: Potential admixtures and cement chemistry |
30 |
| Effect of graphite nanoplatelets and carbon nanofibers on rheology, hydration, shrinkage, mechanical properties, and microstructure of UHPC |
30 |
| Reaction mechanism of magnesium potassium phosphate cement with high magnesium-to-phosphate ratiod |
29 |
| The use of rice husk ash as reactive filler in ultra-high performance concrete |
29 |
| Digital Concrete: A Review |
29 |
| Effect of fly ash microsphere on the rheology and microstructure of alkali-activated fly ash/slag pastes |
28 |
| The cement industry on the way to a low-carbon future |
27 |
| Application of organic- and nanoparticle-modified foams in foamed concrete: Reinforcement and stabilization mechanisms |
27 |
| Autogenous shrinkage of alkali activated slag mortars: Basic mechanisms and mitigation methods |
26 |
| A non-uniform corrosion model and meso-scale fracture modelling of concrete |
25 |
| Alternative cement clinkers |
25 |
| Tensile performance of sustainable Strain-Hardening Cementitious Composites with hybrid PVA and recycled PET fibers |
24 |
| Durability of cement pastes exposed to external sulfate attack and leaching: Physical and chemical aspects |
23 |
| A three-dimensional meso-scale approach to concrete fracture based on combined DEM with X-ray CT images |
23 |
| Effect of slag content and activator dosage on the resistance of fly ash geopolymer binders to sulfuric acid attack |
23 |
| Critical chloride content in reinforced concrete - An updated review considering Chinese experience |
23 |
| Can the compressive strength of concrete be estimated from knowledge of the mixture proportions?: New insights from statistical analysis and machine learning methods |
22 |
| Concrete material science: Past, present, and future innovations |
22 |
| Tensile strength of concrete exposed to sulfate attack |
22 |
| A review on concrete fracture energy and effective parameters |
21 |
| Understanding the behaviour of graphene oxide in Portland cement paste |
21 |
| Influence of fly ash and metakaolin on the microstructure and compressive strength of magnesium potassium phosphate cement paste |
21 |
| Nucleation seeding with calcium silicate hydrate - A review |
20 |
