Artículos con órdenes de acceso público - George W. SchererMás información
No disponibles en ningún lugar: 5
Advances in understanding damage by salt crystallization
RM Espinosa-Marzal, GW Scherer
Accounts of chemical research 43 (6), 897-905, 2010
Órdenes: German Research Foundation
Analysis of CSH growth rates in supersaturated conditions
F Bellmann, GW Scherer
Cement and Concrete Research 103, 236-244, 2018
Órdenes: US Department of Transportation
Studying AEA interaction in cement systems using tensiometry
LE Tunstall, GW Scherer, RK Prud'homme
Cement and Concrete Research 92, 29-36, 2017
Órdenes: US National Science Foundation
Kinetic analysis of CSH growth on calcite
GW Scherer, F Bellmann
Cement and Concrete Research 103, 226-235, 2018
Órdenes: US Department of Transportation
A new hypothesis for air loss in cement systems containing fly ash
LE Tunstall, GW Scherer, RK Prud'homme
Cement and Concrete Research 142, 106352, 2021
Órdenes: US National Science Foundation
Disponibles en algún lugar: 38
Morphology of cementitious material during early hydration
Z Zhang, GW Scherer, A Bauer
Cement and concrete research 107, 85-100, 2018
Órdenes: US National Science Foundation, US Department of Transportation
Crystallization of sodium sulfate salts in limestone
RM Espinosa Marzal, GW Scherer
Environmental geology 56, 605-621, 2008
Órdenes: German Research Foundation
Virtual tours and informational modeling for conservation of cultural heritage sites
RK Napolitano, G Scherer, B Glisic
Journal of Cultural Heritage 29, 123-129, 2018
Órdenes: US National Science Foundation, Natural Sciences and Engineering Research …
Predicting salt damage in practice: a theoretical insight into laboratory tests
RJ Flatt, N Aly Mohamed, F Caruso, H Derluyn, J Desarnaud, B Lubelli, ...
RILEM Technical Letters 2, 108-118, 2017
Órdenes: Gobierno de España
Evaluation of drying methods by nitrogen adsorption
Z Zhang, GW Scherer
Cement and Concrete Research 120, 13-26, 2019
Órdenes: US National Science Foundation, US Department of Transportation
Impact of in-pore salt crystallization on transport properties
RM Espinosa-Marzal, GW Scherer
Environmental Earth Sciences 69 (8), 2657–2669, 2013
Órdenes: German Research Foundation
Direct measurements of 3d structure, chemistry and mass density during the induction period of C3s hydration
Q Hu, M Aboustait, T Kim, MT Ley, JW Bullard, G Scherer, JC Hanan, ...
Cement and concrete research 89, 14-26, 2016
Órdenes: US National Science Foundation, US Department of Energy, US Department of …
Can drying and re-wetting of magnesium sulfate salts lead to damage of stone?
E Balboni, RM Espinosa-Marzal, E Doehne, GW Scherer
Environmental Earth Sciences 63, 1463-1473, 2011
Órdenes: German Research Foundation
Supercritical drying of cementitious materials
Z Zhang, GW Scherer
Cement and Concrete Research 99, 137-154, 2017
Órdenes: US National Science Foundation, US Department of Transportation
Measuring chemical shrinkage of ordinary Portland cement pastes with high water-to-cement ratios by adding cellulose nanofibrils
Z Zhang, GW Scherer
Cement and Concrete Composites 111, 103625, 2020
Órdenes: US National Science Foundation, US Department of Transportation
The chemomechanics of crystallization during rewetting of limestone impregnated with sodium sulfate
RM Espinosa-Marzal, A Hamilton, M McNall, K Whitaker, GW Scherer
Journal of Materials Research 26 (12), 1472-1481, 2011
Órdenes: German Research Foundation
Calcium phosphate coatings for marble conservation: Influence of ethanol and isopropanol addition to the precipitation medium on the coating microstructure and performance
E Sassoni, G Graziani, E Franzoni, GW Scherer
Corrosion Science 136, 255-267, 2018
Órdenes: US National Science Foundation, European Commission
Acid‐resistant coatings on marble
S Naidu, J Blair, GW Scherer
Journal of the American Ceramic Society 99 (10), 3421-3428, 2016
Órdenes: US National Science Foundation
Sodium sulfate heptahydrate I: The growth of single crystals
H Derluyn, TA Saidov, RM Espinosa-Marzal, L Pel, GW Scherer
Journal of Crystal growth 329 (1), 44-51, 2011
Órdenes: Research Foundation (Flanders)
Durable Self-Cleaning Coatings for Architectural Surfaces by Incorporation of TiO2 Nano-Particles into Hydroxyapatite Films
E Sassoni, E D’Amen, N Roveri, GW Scherer, E Franzoni
Materials 11 (2), 177, 2018
Órdenes: US National Science Foundation, European Commission
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