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Comparative analysis of bio-based insulation materials with low-carbon binders: Mechanical, hygrothermal, and durability performance

Houssam Affan, Badreddine El Haddaji, Soukaina Ajouguim, Fouzia Khadraoui

2025Case Studies in Construction Materials8 citationsDOIOpen Access PDF

Abstract

The construction industry is known for its significant impact on global energy consumption and CO₂ emissions, so there's a growing need to explore sustainable building materials. In this study, we explored bio-based insulation materials made from hemp and miscanthus shives combined with low-carbon binders such as natural prompt cement (NPC) and air lime (CL90-S). We evaluated four different formulations, looking at their physical, mechanical, thermal, moisture control, and durability properties to assess their potential for use in energy-efficient buildings. Our results show that the hemp-based insulation with NPC (C100H) offers the best performance in terms of thermal insulation (λ = 0,12 W/m.K) and compressive strength (0,81 MPa), making it the most efficient in both thermal and mechanical properties. On the other hand, the miscanthus-based formulations perform better when it comes to moisture regulation. Specifically, the L100M formulation showed the highest water vapor permeability (6,38 × 10⁻¹⁴ kg/m³) and the best resistance to freeze-thaw cycles. These findings highlight the role of bio-based materials and low-carbon binders in reducing CO₂ emissions and improving building sustainability.

Topics & Concepts

DurabilityMaterials scienceComposite materialCarbon fibersForensic engineeringComposite numberEngineeringHygrothermal properties of building materialsBuilding materials and conservationAerogels and thermal insulation
Comparative analysis of bio-based insulation materials with low-carbon binders: Mechanical, hygrothermal, and durability performance | Litcius