Your search keyword '"Claudia Romero Rodriguez"' showing total 6 results

1. Assessment of the self-healing capacity of cementitious materials through active thin sections

Author

Emanuele Rossi, Claudia Romero Rodriguez, Henk Jonkers, and Oğuzhan Çopuroğlu

Subjects

Histology, active thin sections, Self-Healing, Pathology and Forensic Medicine

Abstract

Since self-healing of cementitious materials can theoretically improve the service-life of concrete structures, it has gathered significant attention from both researchers and industry during the last two decades. Many researchers have proposed different methods to assess and quantify the self-healing capacity (i.e. the ability of cementitious materials to heal cracks) that is generated in concrete autogenously as well as autonomously. Even though many methodologies can be found in the literature, a way to accurately quantify the healing products produced by any self-healing mechanism has not been yet achieved. In this study, a methodology is proposed to observe and to quantify in-time formation of healing products based on active thin sections. Thin sections of Portland cement paste have been prepared with no epoxy impregnation to facilitate reactions between the cement matrix and the surrounding environment. Artificial cracks (260 μm wide) were induced at 28 days of age and the crystal growth was continuously monitored up to 28 days of self-healing. Through image analysis of the micrographs, it was calculated that the autogenous self-healing capacity of paste (triggered by portlandite carbonation in uncontrolled indoor conditions) was around 55% after 28 days of self-healing. Healing products were further characterised through Environmental Scanning Electron Microscope analysis. Based on the results obtained in this study, the proposed methodology seems to be promising to compare the self-healing mechanisms triggered by different healing agents.

Published

2021

2. Surface effects of molten slag spills on calcium aluminate cement paste

Author

Oguzhan Copuroglu, Claudia Romero Rodriguez, Fernando Franca de Mendonca Filho, and Erik Schlangen

Subjects

Mechanics of Materials, Calcium aluminate cement, Mechanical Engineering, General Materials Science, molten slag spill, high temperature degradation

Abstract

Industries such as metal, ceramics and petrochemicals suffer from high temperature spills. Such events exert a unique form of loading in concrete structures that cannot be accurately simulated by heating of samples in an oven. Calcium aluminate cement (CAC) based concrete is the industry standard for such environment, and while much is known regarding its heating, literature considering hot spills on concrete surfaces is scarce. In this paper, slag is heated up to the same temperature as in a steel factory and then poured on top of cement paste samples with W/C ratios of 0.20 and 0.40. A combination of FEM, TGA, XRD and SEM/EDS was used to investigate the effects of hot spill on the samples. The rapid expansion caused by the thermal shock generated cracks in only some of the samples, while the high temperature environment and unidirectional escape of water caused chemical changes in all samples.

Published

2022

3. Assessing strain rate sensitivity of cement paste at the micro-scale through micro-cantilever testing

Author

Erik Schlangen, Branko Šavija, Yidong Gan, Claudia Romero Rodriguez, and Klaas van Breugel

Subjects

Materials science, Strain (chemistry), Building and Construction, Cement paste, Creep, Strain rate, Stress (mechanics), Strain rate sensitivity, Flexural strength, Fracture (geology), Micro-cantilever bending, General Materials Science, Nanoindenter, Composite material, Elastic modulus

Abstract

This study presents an experimental investigation of the rate-dependent mechanical properties of cement paste at the microscale. With the use of a nanoindenter, micro-cantilever beams with the size of 300 μm × 300 μm × 1650 μm were loaded at five different strain rates from around 10−6/s to 10−2/s until failure. It is found that with increasing strain rate, the stress-strain curves show less and delayed pre-peak nonlinearity. Both the flexural strength and the elastic modulus of beams increase with increasing strain rate, while the strain at peak stress exhibits an opposite trend. Examination of the fracture surface indicates that with increasing strain rate the possibility of a crack to pass through stronger components of the hydration products is increased. The experimental observations and possible mechanisms leading to changes in mechanical responses are discussed. It is suggested that at least two micromechanical processes, namely creep and Stéfan effect, are mainly responsible for the rate-dependent behaviour of cement paste within the investigated strain rate range and their dominances seem to vary with the strain rate. At lower strain rate, the strain rate sensitivity of cement paste is thought to be dominated by the creep effect, while at higher strain rate the Stéfan effect appears to be the governing factor.

Published

2021

4. Accelerated carbonation of ordinary Portland cement paste and its effects on microstructure and transport properties

Author

Claudia Romero Rodriguez, Ye, R., Aikaterini Varveri, Emanuele Rossi, Giovanni Anglani, Paola Antonaci, Erik Schlangen, and Branko Šavija

Subjects

carbonation, blended cement, transport properties cement, transport properties cement, dual X-ray microcomputer tomography, DVS, carbonation, blended cement, dual X-ray microcomputer tomography, DVS

5. Modelling strategies for the study of crack self-sealing in mortar with superabsorbent polymers

Author

Claudia Romero Rodriguez, Stefan Chaves Figueiredo, Didier Snoeck, Branko Šavija, and Erik Schlangen

6. Proceedings of the Symposium on Concrete Modelling

Author

Erik Schlangen, Geert De Schutter, Branko Šavija, Hongzhi Zhang, and Claudia Romero Rodriguez