- A comparative study on the pore structure of alkali-activated fly ash evaluated by mercury intrusion porosimetry, N2 adsorption and image analysis. In: Journal of Materials Science, v. 53, n. 8 (January 2018). (2018):
- The effect of activating solution on the mechanical strength, reaction rate, mineralogy, and microstructure of alkali-activated fly ash. In: Journal of Materials Science, v. 47, n. 11 (February 2012). (2012):
- Phase distribution and microstructural changes of self-compacting cement paste at elevated temperature. In: Cement and Concrete Research, v. 37, n. 6 (June 2007). (2007):
- The shrinkage of alkali activated fly ash. In: Cement and Concrete Research, v. 68 (February 2015). (2015):
- On the mechanism of polypropylene fibres in preventing fire spalling in self-compacting and high-performance cement paste. In: Cement and Concrete Research, v. 38, n. 4 (April 2008). (2008):
- The role of porosity on degradation of concrete under severe internal and external brine attack in confined conditions. In: Construction and Building Materials, v. 341 (July 2022). (2022):
- Influence of limestone powder used as filler in SCC on hydration and microstructure of cement pastes. In: Cement and Concrete Composites, v. 29, n. 2 (February 2007). (2007):
- Prediction of mechanical properties of cement paste at microscale. Predicción de las propiedades mecánicas del cemento en la micro-escala. In: Materiales de Construccion, v. 60, n. 297 (March 2010). (2010):
- Un A numerical-statistical approach to determining the representative elementary volume (REV) of cement paste for measuring diffusivity. Un método numérico-estadístico para determinar el volumen elemental representativo (VER) de la pasta de cemento en la medición de la difusividad. In: Materiales de Construccion, v. 60, n. 300 (December 2010). (2010):
- Evaluating compressive mechanical LDPM parameters based on an upscaled multiscale approach. In: Construction and Building Materials, v. 251 (August 2020). (2020):
- Numerical Study on Chloride Ingress in Cement-Based Coating Systems and Service Life Assessment. In: Journal of Materials in Civil Engineering (ASCE), v. 31, n. 5 (May 2019). (2019):
- Development of porosity of cement paste blended with supplementary cementitious materials after carbonation. In: Construction and Building Materials, v. 145 (August 2017). (2017):
- Micro-mechanical properties of alkali-activated fly ash evaluated by nanoindentation. In: Construction and Building Materials, v. 147 (August 2017). (2017):
- Modelling of water permeability in cementitious materials. In: Materials and Structures, v. 39, n. 9 (November 2006). (2006):
- Characterization of the development of microstructure and porosity of cement-based materials by numerical simulation and ESEM image analysis. In: Materials and Structures, v. 35, n. 10 (December 2002). (2002):
- Anm: a geometrical model for the composite structure of mortar and concrete using real-shape particles. In: Materials and Structures, v. 49, n. 1-2 (January 2016). (2016):
- (2017): Characterization and comparison of capillary pore structures of digital cement pastes. In: Materials and Structures, v. 50, n. 2 (April 2017).
- Numerical simulation of the hydration process and the development of microstructure of self-compacting cement paste containing limestone as filler. In: Materials and Structures, v. 40, n. 9 (November 2007). (2007):
- Effect of corrosion inhibitors on cement paste pore structure. In: Proceedings of the Institution of Civil Engineers - Construction Materials, v. 161, n. 2 (May 2008). (2008):
- Compressive Behavior of Engineered Cementitious Composites under High Strain-Rate Loading. In: Journal of Materials in Civil Engineering (ASCE), v. 29, n. 4 (April 2017). (2017):