Matthew Aguayo scite author profile

Phase Change Materials (PCMs) incorporated into cementitious systems have been well-studied with respect to energy efficiency of building envelopes. New applications of PCMs in infrastructural concrete, e.g., for mitigating early-age cracking and freeze-and-thaw induced damage, have been proposed. Hence this paper develops a detailed understanding of the characteristics of cementitious systems containing two different microencapsulated PCMs. The PCMs are evaluated using thermal analysis, vibrational (FTIR) spectroscopy, and electron microscopy, and their dispersion in cement pastes is quantified using X-ray Computed Microtomography (µCT). The influences of PCMs on cement hydration and pore structure are evaluated. The compressive strength of mortars containing PCMs is noted to be strongly dependent on the encapsulation properties. Finite element simulations carried out on cementitious microstructures are used to assess the influence of interface properties and inter-inclusion interactions.The outcomes provide insights on methods to tailor the component phase properties and PCM volume fraction so as to achieve desirable performance.

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The fracture response of blended formulations containing limestone powder: Evaluations using two-parameter fracture model and digital image correlation

Das

Aguayo

Dey

et al. 2014

Cement and Concrete Composites

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Fracture process zone and tensile behavior of blended binders containing limestone powder

Das

Aguayo

Sant

et al. 2015

Cement and Concrete Research

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Matthew Aguayo

On the feasibility of using phase change materials (PCMs) to mitigate thermal cracking in cementitious materials

Hydration and strength development in ternary portland cement blends containing limestone and fly ash or metakaolin

The influence of microencapsulated phase change material (PCM) characteristics on the microstructure and strength of cementitious composites: Experiments and finite element simulations

The fracture response of blended formulations containing limestone powder: Evaluations using two-parameter fracture model and digital image correlation

Fracture process zone and tensile behavior of blended binders containing limestone powder

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