Effect of microstructure heterogeneity shapes on constitutive behaviour of encapsulated self-healing cementitious materials

Sayadi, Sina; Ricketts, Evan John; Schlangen, Erik; Cleall, Peter John; Mihai, Iulia; Jefferson, Tony

doi:10.1051/matecconf/202337809004

MATEC Web Conf.

2023

DOI: 10.1051/matecconf/202337809004

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Effect of microstructure heterogeneity shapes on constitutive behaviour of encapsulated self-healing cementitious materials

Sina Sayadi

Evan John Ricketts

Erik Schlangen

et al.

Abstract: Self-healing cementitious materials with microcapsules are complex multiscale and multiphase materials. The random microstructure of these materials governs their mechanical and transport behaviour. The actual microstructure can be represented accurately with a discrete lattice model, but computational restrictions mean that the size of domain that can be considered with this approach is limited. By contrast, a smeared approach, based on a micromechanical formulation, provides an approximate representation of … Show more

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Simulation of Autogenous Self‐Healing in Lime‐Based Mortars

De Nardi,

Sayadi,

Mihai

et al. 2024

Num Anal Meth Geomechanics

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Throughout history, architectural heritage has been constructed using masonry, clay or stone elements, and lime‐based mortars. Over time, old buildings are subjected to different degrees of movement and degradation, leading to the formation of microcracks. Water dissolves and transports lime in mortar, but when the water evaporates, the lime is deposited and heals cracks in a process known as autogenous healing. Lime‐based mortars can regain some mechanical properties due to their healing capacity, given certain conditions. In the present work, a constitutive formulation has been developed to simulate cracking and healing in lime‐based mortars. The proposed model captures the residual displacements within cracks, associated with interacting crack surface asperities, as well as the healing effect on mechanical properties. A new approach is described which expresses these mechanisms mathematically within a micromechanical formulation. The proposed model was validated by comparing the outputs with experimental data. The results show that the new continuum micromechanical damage‐healing model could capture the damage‐healing cycle with good accuracy.

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Simulation of Autogenous Self‐Healing in Lime‐Based Mortars

De Nardi,

Sayadi,

Mihai

et al. 2024

Num Anal Meth Geomechanics

View full text Add to dashboard Cite

show abstract

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Effect of microstructure heterogeneity shapes on constitutive behaviour of encapsulated self-healing cementitious materials

Cited by 1 publication

References 21 publications

Simulation of Autogenous Self‐Healing in Lime‐Based Mortars

Simulation of Autogenous Self‐Healing in Lime‐Based Mortars

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