Thermal and Transfer Behaviour Modelling in Concrete Incorporating Seashell Co-products - Archive ouverte HAL
Communication Dans Un Congrès Année : 2024

Thermal and Transfer Behaviour Modelling in Concrete Incorporating Seashell Co-products

Résumé

In order to reduce environmental impact of construction sector, by-products from other industries must replace classical raw materials in concrete. In parallel, seashell production in the word represents approximately 17 million tons [1] and their shell represent a calcareous resource that can be valorised. Previous researches have shown that the use of seashell co-products as aggregates in concrete can lead to modifications of thermal and transfer behaviours of concrete (thermal conductivity and capacity, chloride diffusion, air permeability) [2]. In order to limit the number of experimental tests, it is interesting to have models to be able to understand the impact of seashell properties on concrete behaviour including long-term behaviour and optimize the formulations. This study aims at providing models to understand thermal and transfers behaviour of concrete incorporating sea-shell by-products. Input parameters were measured on oyster shell aggregates. First modelling was carried out using the Mori-Tanaka homogenisation scheme that is generally used to model bio-based thermal behaviour [3,4]. In a second time, to consider the potential impact of particular shape of seashell aggregates, concrete samples were scanned by µ-tomography, images were segmented in order to get a mesh with this realistic geometry. Then, thermal and transfer behaviour of concrete was simulated using finite element methods. Results show the influence of seashell aggregates shape and properties on concrete behaviour. The models developed in this study could be used in order to simulate behaviour of concrete using other types of seashells providing that input parameters are measured.

Domaines

Génie civil
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Dates et versions

hal-04815350 , version 1 (02-12-2024)

Identifiants

  • HAL Id : hal-04815350 , version 1

Citer

Camille Martin--Cavaillé, Alexandra Bourdot, Nassim Sebaibi, Rachid Bennacer. Thermal and Transfer Behaviour Modelling in Concrete Incorporating Seashell Co-products. ECCOMAS CONGRESS 2024. 9th European Congress on Computational Methods in Applied Sciences and Engineering, Jun 2024, Lisbonne, Portugal. ⟨hal-04815350⟩
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