Advances in using municipal solid waste incineration (MSWI) bottom ash as precursor for alkali-activation materials: A critical review

Utilization of mswi bottom ash as a mineral resource for low-carbon construction materials: Quality-upgrade treatments, mix design method, and microstructure analysis

Reactivity and leaching potential of municipal solid waste incineration (MSWI) bottom ash as supplementary cementitious material and precursor for alkali-activated materials

Carbonation Rate of Alkali-Activated Concretes: Effects of Compositional Parameters and Carbonation Conditions

RILEM TC 281-CCC Working Group 6: Carbonation of Alkali Activated Concrete: Preliminary Results of a Literature Survey and Data Analysis

A review on the utilization of municipal solid waste incineration (MSWI) bottom ash as a mineral resource for construction materials

Micromechanics-guided development of strain-hardening alkali-activated composites: Towards a low-carbon built environment

Modification on the chloride binding capacity of alkali activated slag by applying calcium and aluminium containing phases

Carbonation rate of alkali-activated concretes and high-volume SCM concretes: a literature data analysis by RILEM TC 281-CCC

Rheology of alkali-activated slag pastes: New insight from microstructural investigations by cryo-SEM

Strain hardening behaviour of PVA fibre reinforced geopolymer composites

Influence of the Ms-modulus on the early-age volume change and heat release of slag and fly ash pastes activated by sodium hydroxide and sodium silicate

Influence of curing conditions on alkali-activated mortars intended for concrete repair

Effect of precursors and water to binder ratios on the water permeability of alkali-activated mortars

Autogenous shrinkage of alkali-activated slag and fly ash materials: From mechanism to mitigating strategies

Molecular dynamics and experimental study on the adhesion mechanism of polyvinyl alcohol (PVA) fiber in alkali-activated slag/fly ash

Effect of metakaolin on the autogenous shrinkage of alkali-activated slag-fly ash paste

Cracking Potential of Alkali-Activated Concrete Induced by Autogenous Shrinkage

Role of curing conditions and precursor on the microstructure and phase chemistry of alkali-activated fly ash and slag pastes

Cracking potential of alkali-activated slag and fly ash concrete subjected to restrained autogenous shrinkage