Use of Local Resources in Plant-Based Concretes: Exploring Thermal Performance Through Multi-Scale Modeling
Résumé
The construction sector significantly impacts the environment, driving the development of sustainable materials like plant-based concretes. These materials offer low embodied energy, effective thermal insulation, and natural hygroscopicity. However, one of the major difficulties is that the diversity of formulations complicates the performance assessment. Furthermore, few studies model their insulating capacity based on composition. This research employs mean-field homogenization techniques (Mori-Tanaka and double inclusion schemes) to predict thermal conductivity, integrating formulation, aggregate orientation due to implementation methods, and morphological characteristics at several scales. The models analyze key factors-aggregate type, aspect ratio, and orientation-improving insulation beyond experimental limitations. A multi-criteria approach further explores binder and aggregate proportions, hygric and mechanical properties, and raw material availability. One of the major results is that a preferred orientation increases thermal efficiency by 60 percent, a difficult factor to assess experimentally today. This study enables the optimized thermal performance of plant-based concretes before production, fostering innovative manufacturing approaches for eco-friendly construction.
Mots clés
- funding acquisition
- microstructure
- optimization Conceptualization
- S.R.L.
- methodology
- software
- validation
- formal analysis
- investigation
- resources
- data curation
- writing-original draft preparation
- writing-review and editing
- S.R.L. and A.A.-C.
- visualization
- supervision
- A.A.-C. and V.S.
- project administration
- A.A.-C.
- S.R.L. writing-original draft preparation
- multiscale modeling plant-based concrete thermal conductivity microstructure optimization Conceptualization
- S.R.L. methodology
- S.R.L. software
- S.R.L. validation
- S.R.L. formal analysis
- S.R.L. investigation
- S.R.L. resources
- S.R.L. data curation
- thermal conductivity
- S.R.L. writing-review and editing
- S.R.L. and A.A.-C. visualization
- S.R.L. supervision
- A.A.-C. and V.S. project administration
- A.A.-C. funding acquisition
- S.R.L. and A
- multiscale modeling
- plant-based concrete
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