The moisture buffering capacity of unfired clay masonry: Fid-Bau Portal

The moisture buffering capacity of unfired clay masonry

McGregor, Fionn / Heath, Andrew / Shea, Andrew / Lawrence, Mike

Abstract In this paper, the results of static and dynamic hygric tests on 114 unfired clay masonry samples are presented. Samples were prepared as Compressed Earth Blocks (CEB) or plasters. The variability of soils, the soil density and the preparation methods were investigated to determine their influence on the moisture buffering capacity, water vapour permeability and sorption isotherms. The Moisture buffering Value (MBV) was measured according to the Nordtest protocol and the results could therefore be compared to conventional materials. The results indicate unfired clay masonry has a much higher potential to regulate the indoor humidity than conventional construction materials previously reported in the literature. Because of the benefits of humidity buffering, using unfired clay masonry could reduce health risk for inhabitants, reduce mould growth, reduce energy consumption of air conditioning and ventilation systems and increase the durability of building materials. The presented results show that the soil selection (mineralogy and particle size distribution) is more important for humidity buffering than changes than can be made to a particular soil (density, preparation methods or stabilisation) and the information presented will therefore allow designers to maximise the buffering capacity of buildings.

Highlights • Hygric properties of over 100 samples of unfired clay masonry were measured. • Soil variability and its influence on moisture buffering performance. • Soil variability and its influence on sorption isotherms and water vapour permeability. • DVS equipment used to investigate the dynamic adsorption properties. • Comparison between static and dynamic properties.