Provis, John L.
John L. Provis researcher
VIAF ID: 91095888 (Personal)
Permalink: http://viaf.org/viaf/91095888
Preferred Forms
- 100 0 _ ‡a John L. Provis ‡c researcher
- 200 _ | ‡a Provis ‡b John L.
- 100 1 _ ‡a Provis, John L
- 100 1 _ ‡a Provis, John L.
-
-
-
- 100 1 _ ‡a Provis, John L.
-
- 100 1 _ ‡a Provis, John L.
- 100 1 _ ‡a Provis, John L.
-
4xx's: Alternate Name Forms (7)
5xx's: Related Names (3)
Works
Title | Sources |
---|---|
Alkali Activated Materials : State-of-the-Art Report, RILEM TC 224-AAM | |
Carbonation rate of alkali-activated concretes and high-volume SCM concretes: a literature data analysis by RILEM TC 281-CCC | |
Determination of particle size, surface area, and shape of supplementary cementitious materials by different techniques | |
Distinctive microstructural features of aged sodium silicate-activated slag concretes | |
Editorial introduction – Journal of Sustainable Cement-Based Materials special issue on chemically activated materials | |
Effect of temperature and aluminium on calcium (alumino)silicate hydrate chemistry under equilibrium conditions | |
The Effects of Temperature on the Local Structure of Metakaolin-Based Geopolymer Binder: A Neutron Pair Distribution Function Investigation | |
Evaluation of the potential improvement in the environmental footprint of geopolymers using waste-derived activators | |
Exploiting in-situ solid-state NMR spectroscopy to probe the early stages of hydration of calcium aluminate cement | |
The fate of iron in blast furnace slag particles during alkali-activation | |
Gamma irradiation resistance of early age Ba(OH) 2 -Na 2 SO 4 -slag cementitious grouts | |
Gaseous carbonation of cementitious backfill for geological disposal of radioactive waste: Nirex Reference Vault Backfill | |
Gel nanostructure in alkali-activated binders based on slag and fly ash, and effects of accelerated carbonation | |
Generalized biaxial shearing of MQMAS NMR spectra. | |
Generalized Structural Description of Calcium–Sodium Aluminosilicate Hydrate Gels: The Cross-Linked Substituted Tobermorite Model | |
Geopolymers, 2009: | |
Geopolymers based on spent catalyst residue from a fluid catalytic cracking (FCC) process | |
Geopolymers for immobilization of Cr(6+), Cd(2+), and Pb(2+). | |
Geopolymers structure, processing, properties and industrial applications | |
Grand Challenges in Structural Materials | |
High-Resolution X-ray Diffraction and Fluorescence Microscopy Characterization of Alkali-Activated Slag-Metakaolin Binders | |
Identification of the hydrate gel phases present in phosphate-modified calcium aluminate binders | |
In situ ATR-FTIR study of the early stages of fly ash geopolymer gel formation. | |
In situ X-ray pair distribution function analysis of geopolymer gel nanostructure formation kinetics. | |
Incorporation of strontium and calcium in geopolymer gels | |
Influence of slag composition on the stability of steel in alkali-activated cementitious materials | |
Interactions between Simulant Vitrified Nuclear Wastes and high pH solutions: A Natural Analogue Approach | |
The Interfacial Transition Zone in Alkali-Activated Slag Mortars | |
Magnesia-Based Cements: A Journey of 150 Years, and Cements for the Future? | |
Management and valorisation of wastes through use in producing alkali-activated cement materials | |
Mechanical and thermal characterisation of geopolymers based on silicate-activated metakaolin/slag blends | |
Mechanisms of passivation and chloride-induced corrosion of mild steel in sulfide-containing alkaline solutions | |
Microstructural changes in alkali activated fly ash/slag geopolymers with sulfate exposure | |
Mimicking Biosintering: The Identification of Highly Condensed Surfaces in Bioinspired Silica Materials | |
Modeling Speciation in Highly Concentrated Alkaline Silicate Solutions | |
Molecular mechanisms responsible for the structural changes occurring during geopolymerization: Multiscale simulation | |
Nanostructural characterization of geopolymers by advanced beamline techniques | |
Other Potential Applications for Alkali-Activated Materials | |
Outcomes of the RILEM round robin on degree of reaction of slag and fly ash in blended cements | |
Phase diagrams for alkali-activated slag binders | |
Phase evolution of Na2O-Al2O3-SiO2-H2O gels in synthetic aluminosilicate binders. | |
Phase evolution of slag-rich cementitious grouts for immobilisation of nuclear wastes | |
Phase Formation and Evolution in Mg(OH)2–Zeolite Cements | |
Production and hydration of calcium sulfoaluminate-belite cements derived from aluminium anodising sludge | |
Quantitative Mechanistic Modeling of Silica Solubility and Precipitation during the Initial Period of Zeolite Synthesis | |
Real-time high-resolution X-ray imaging and nuclear magnetic resonance study of the hydration of pure and Na-doped C3A in the presence of sulfates. | |
Reduction of gold(III) chloride to gold(0) on silicate surfaces | |
Reproducible mini-slump test procedure for measuring the yield stress of cementitious pastes | |
RILEM TC 247-DTA round robin test: mix design and reproducibility of compressive strength of alkali-activated concretes | |
Role of carbonates in the chemical evolution of sodium carbonate-activated slag binders | |
The role of inorganic polymer technology in the development of ‘green concrete’ | |
Role of Microstructure and Surface Defects on the Dissolution Kinetics of CeO2, a UO2 Fuel Analogue. | |
Role of soluble aluminum species in the activating solution for synthesis of silico-aluminophosphate geopolymers | |
Sensory properties of alkali activated materials containing carbon nanotubes | |
Silica nanoparticle formation in the TPAOH-TEOS-H2O system: a population balance model. | |
Slag and Activator Chemistry Control the Reaction Kinetics of Sodium Metasilicate-Activated Slag Cements | |
Slag-Based Cements That Resist Damage Induced by Carbon Dioxide | |
Stoichiometrically controlled C–(A)–S–H/N–A–S–H gel blends via alkali-activation of synthetic precursors | |
Structural evolution of synthetic alkali-activated CaO-MgO-Na 2 O-Al 2 O 3 -SiO 2 materials is influenced by Mg content | |
Structural Ordering of Aged and Hydrothermally Cured Metakaolin Based Potassium Geopolymers | |
Structure and properties of binder gels formed in the system Mg(OH)2-SiO2-H2O for immobilisation of Magnox sludge. | |
Structure of Portland Cement Pastes Blended with Sonicated Silica Fume | |
Synthèse et caractérisation de composites à base de matériaux alcali-activés incorporant des huiles minérales pour la gestion des huiles tritiées | |
Tables, of the most useful kind, to facilitate business in several branches of the copper trade never before printed, and which will apply to almost every individual concerned therein : from original calculations, made with the greatest circumspection | |
Thermodynamic modelling of alkali-activated slag cements | |
Time-resolved and spatially-resolved infrared spectroscopic observation of seeded nucleation controlling geopolymer gel formation | |
Towards designing reactive glasses for alkali activation: Understanding the origins of alkaline reactivity of Na-Mg aluminosilicate glasses | |
Understanding the carbonation of concrete with supplementary cementitious materials: a critical review by RILEM TC 281-CCC | |
Uptake of chloride and carbonate by Mg-Al and Ca-Al layered double hydroxides in simulated pore solutions of alkali-activated slag cement | |
Valorisation of a kaolin mining waste for the production of geopolymers | |
What Happens to 5 Year Old Metakaolin Geopolymers’ the Effect of Alkali Cation | |
What is the structure of kaolinite? Reconciling theory and experiment |