693.932 PEOPLE
| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Provis, John L.
Paul Scherrer Institute
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (52/52 displayed)
- 2024Report of RILEM TC 281-CCC: a critical review of the standardised testing methods to determine carbonation resistance of concretecitations
- 2024A critical review of magnesium silicate hydrate (M-S-H) phases for binder applicationscitations
- 2024Characterisation of calcined waste clays from kaolinite extraction in alkali-activated GGBFS blendscitations
- 2024Basic oxygen furnace (BOF) slag as an additive in sodium carbonate-activated slag cementscitations
- 2024Why geopolymers and alkali‐activated materials are key components of a sustainable world: A perspective contributioncitations
- 2024Report of RILEM TC 281-CCC: A critical review of the standardised testing methods to determine carbonation resistance of concretecitations
- 2023Application of electrochemical methods for studying steel corrosion in alkali-activated materialscitations
- 2023Carbonation Rate of Alkali-Activated Concretes
- 2023Application of electrochemical methods for studying steel corrosion in alkali‐activated materialscitations
- 2023RILEM TC 281-CCC Working Group 6
- 2023Evaluation of copper slag and stainless steel slag as replacements for blast furnace slag in binary and ternary alkali-activated cementscitations
- 2023Evaluation of copper slag and stainless steel slag as replacements for blast furnace slag in binary and ternary alkali-activated cementscitations
- 2023Characterisation of alkali-activated stainless steel slag and blast-furnace slag cementscitations
- 2023Characterisation of alkali-activated stainless steel slag and blast-furnace slag cementscitations
- 2023Thermodynamics of calcined clays used in cementitious binderscitations
- 2023Thermodynamics of calcined clays used in cementitious binders:origin to service life considerationscitations
- 2022Carbonation rate of alkali-activated concretes and high-volume SCM concretescitations
- 2022Report of RILEM TC 267-TRM phase 2: optimization and testing of the robustness of the R3 reactivity tests for supplementary cementitious materialscitations
- 2022Report of RILEM TC 267-TRM phase 2: optimization and testing of the robustness of the R3 reactivity tests for supplementary cementitious materialscitations
- 2021Early age hydration and application of blended magnesium potassium phosphate cements for reduced corrosion of reactive metalscitations
- 2021Activator Anion Influences the Nanostructure of Alkali-Activated Slag Cementscitations
- 2021Clay calcination technology: state-of-the-art review by the RILEM TC 282-CCL
- 2021Correction to: Understanding the carbonation of concrete with supplementary cementitious materials: a critical review by RILEM TC 281-CCCcitations
- 2020Understanding the carbonation of concrete with supplementary cementitious materials: a critical review by RILEM TC 281-CCCcitations
- 2020Understanding the carbonation of concrete with supplementary cementitious materials: a critical review by RILEM TC 281-CCCcitations
- 2020Understanding the carbonation of concrete with supplementary cementitious materials: a critical review by RILEM TC 281-CCCcitations
- 2020RILEM TC 247-DTA round robin testcitations
- 2020The role of zinc in metakaolin-based geopolymerscitations
- 2020RILEM TC 247-DTA round robin test: carbonation and chloride penetration testing of alkali-activated concretescitations
- 2020Incorporation of strontium and calcium in geopolymer gelscitations
- 2020Understanding the carbonation of concrete with supplementary cementitious materialscitations
- 2019RILEM TC 247-DTA round robin testcitations
- 2019RILEM TC 247-DTA round robin test: mix design and reproducibility of compressive strength of alkali-activated concretescitations
- 2019RILEM TC 247-DTA round robin test: mix design and reproducibility of compressive strength of alkali-activated concretescitations
- 2019RILEM TC 247-DTA round robin test: mix design and reproducibility of compressive strength of alkali-activated concretescitations
- 2019Layered double hydroxides modify the reaction of sodium silicate-activated slag cementscitations
- 2019Efficient mix design of alkali activated slag concretes based on packing fraction of ingredients and paste thicknesscitations
- 2018Slag and Activator Chemistry Control the Reaction Kinetics of Sodium Metasilicate-Activated Slag Cementscitations
- 2018Reactivity tests for supplementary cementitious materials RILEM TC 267-TRM phase 1citations
- 2018Alkali activated slag concretes designed for a desired slump, strength and chloride diffusivitycitations
- 2018Response to the discussion by Hongyan Ma and Ying Li of the paper “Characterization of magnesium potassium phosphate cement blended with fly ash and ground granulated blast furnace slag”citations
- 2018Reactivity tests for supplementary cementitious materials: RILEM TC 267-TRM phase 1citations
- 2017Alternative inorganic binders based on alkali-activated metallurgical slagscitations
- 2017Characterization of supplementary cementitious materials by thermal analysiscitations
- 2017Chloride-induced corrosion of steel rebars in simulated pore solutions of alkali-activated concretescitations
- 2017Suitability Of Alkali Activated GGBS/fly Ash Concrete For Chloride Environments
- 2017Influence of slag composition on the stability of steel in alkali-activated cementitious materialscitations
- 2015Physical characterization methods for supplementary cementitious materialscitations
- 2015Physical characterization methods for supplementary cementitious materialscitations
- 2015Determination of particle size, surface area, and shape of supplementary cementitious materials by different techniquescitations
- 2015Determination of particle size, surface area, and shape of supplementary cementitious materials by different techniquescitations
- 2015Gamma irradiation resistance of an early age slag-blended cement matrix for nuclear waste encapsulationcitations
Places of action
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article
Thermodynamics of calcined clays used in cementitious binders
Abstract
The use of calcined clays in construction materials has attracted significant attention in the last few years. Based on the continued need for sustainable construction to meet global development challenges, the green transition of the cement industry is an urgent necessity. The use of clay-blended cements will keep increasing to meet the need for mass quantities of materials and the prospect of reducing their embodied CO<sub>2</sub>, as traditional supplementary cementitious materials are expected to decline in availability. To enable the necessary rapid increase in the fraction of clays that can be used in cements, the use of modeling tools which provide insights into the clays and their reactivity in cementitious systems is of increased interest. The aim is to predict the properties of the calcined clays based on the original rock and calcination conditions, the phase evolution, material properties, and durability of construction materials. This is crucial to reduce the time needed for development and commercialisation, whereas extensive empirical work has been used in the past to achieve material transition in the construction sector, which can be extremely time consuming. This review article therefore aims to provide an overview of available thermodynamic data, issues with database integration, modelling of process parameters, and properties prediction for cementitious materials.