Hierarchical meta-modelling for fast prediction of the elastic properties of stone injected with CNT/cement mortar
Metadatos
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2023Referencia bibliográfica
Published version: Rodríguez-Romero, R., Compán, V., Sáez, A., & García-Macías, E. (2023). Hierarchical meta-modelling for fast prediction of the elastic properties of stone injected with CNT/cement mortar. Construction and Building Materials, 408, 133725.
Resumen
This paper presents an innovative hierarchical meta-modelling approach for predicting the
effective elastic properties of stone injected with composite cement grouts containing Carbon
NanoTubes (CNTs) for structural rehabilitation purposes. The study first addresses the homogenization of the nano- and micro-scales through numerical representative volume elements. The
first numerical model focuses on the cement matrix doped with randomly oriented CNTs, while
the second model represents the porous stone with CNT/cement grout filling the pores. However,
the computational burden associated with these models poses a significant limitation when
analysing large-scale macrostructural elements. To overcome this challenge, a hierarchical metamodelling approach based on two nested Kriging surrogate models is proposed. This approach
offers a fast and accurate alternative to bypass the time-consuming numerical homogenization
process. The first surrogate model establishes a connection between the microstructural characteristics of the CNTs and cement and the effective elastic properties of the composite grout.
Subsequently, a second meta-model expands over the first one by introducing two additional
variables: the elastic modulus of the stone and the porosity, allowing for estimation of the overall
elastic properties of CNT/cement/stone composites. The accuracy and efficiency of the proposed
hierarchical meta-model is demonstrated through detailed parametric analyses. To showcase its
potential for optimizing rehabilitation interventions, the paper is closed with its application to a
benchmark case study of a stone column injected with CNT/cement grout.