Electrical Resistivity-Based Approach to Characterize Moisture Content in Compressed Earth Bricks
Résumé
Compressed earth bricks (CEBs) are increasingly used as a sustainable building material, but their hygroscopic nature makes them susceptible to moisture-related degradation. Monitoring moisture content in CEBs is crucial for ensuring structural integrity and durability, yet existing methods are often destructive or limited in application. This study presents a non-destructive approach for assessing moisture content in CEBs using electrical resistivity measurements, adapted from geophysical surveying techniques. The research employed a modified Syscal Junior Switch-48 resistivity meter with 4-electrode and 16-electrode configurations to measure electrical resistance in CEB samples under controlled relative humidity conditions ranging from 20% to 100%. Clear logarithmic correlations were established between moisture content (1.86-9.48%) and electrical resistivity. The measured electrical resistivity varied from 12.4Ωm at 9.48% moisture content to 3350Ωm at 1.86% moisture content, demonstrating the method's sensitivity across a wide range of moisture levels. The 50mA measurement mode demonstrated capability to assess moisture levels down to 1.86%, while the standard 1250mA mode was effective above 2.9% moisture content. Numerical modeling using finite element analysis was conducted to determine geometric factors and true resistivity values. The 16-electrode multiplexed measurements showed good agreement with the experimental trend, enabling potential internal moisture mapping. This application of resistivity measurements represents a significant advance in non-destructive monitoring of earthen construction materials.
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