Litcius/Paper detail

Ultra-compressed earth block stabilized by bio-binder for sustainable building construction

Jiaming Ma, Ahmed Abdelaal, Hongru Zhang, Annan Zhou, Yang Fu, Yi Min Xie

2024Case Studies in Construction Materials18 citationsDOIOpen Access PDF

Abstract

Conventional practices in earth construction, such as cement stabilization and the energy-intensive firing of bricks, contribute significantly to carbon emissions due to the processes involved in cement production and kiln operation. Additionally, concerns over the low strength of earth-based materials have limited their broader applications. This research addresses these challenges by implementing ultra-high pressures (200 MPa and 400 MPa) and bio-binders (animal glue and xanthan gum) to enhance earth materials for construction. Unstabilized earth mixture and normal pressure case (20 MPa) are also included in this study for comparison. A custom-designed mold and a specialized production process are developed to fabricate cylindrical earth samples for testing. After undergoing three hours of consolidation and 28 days of curing, unconfined compressive strengths are measured. Scanning electron microscopy is used to investigate the influence of ultra-high pressures and bio-binders on the microstructures of compressed earth blocks. The experimental results demonstrate that animal-glue- and xanthan-gum-stabilized samples under ultra-high pressure achieve compressive strengths comparable to traditional fired bricks, while unstabilized samples exhibit the strength of cement-stabilized rammed earth. This research demonstrates that ultra-compression combined with bio-binder stabilization presents a viable strategy for reducing the carbon footprint of earth construction while significantly enhancing the mechanical properties. • Ultra-high pressures of 200 MPa and 400 MPa are utilized to compress earth blocks. • Animal glue and xanthan gum are used as alternatives to cement for stabilization. • The compressive strengths of the stabilized samples match those of fired bricks. • SEM indicates intense soil particle bonding under high pressure and bio-binders.

Topics & Concepts

Block (permutation group theory)Earth (classical element)Compressive strengthEnvironmental scienceMaterials scienceComposite materialMathematicsMathematical physicsGeometryHygrothermal properties of building materialsInnovations in Concrete and Construction MaterialsBuilding materials and conservation
Ultra-compressed earth block stabilized by bio-binder for sustainable building construction | Litcius