TY - JOUR
T1 - An experimental approach for the investigation of the performance of nonstabilized Compressed Earth Blocks against water-mediated weathering
AU - Kyriakides, Marios
AU - Illampas, Rogiros
AU - Ioannou , I.
AU - Panagiotou , R.
PY - 2022
Y1 - 2022
N2 - Compressed Earth Blocks (CEBs) have been attracting increasing research interest recently, because of their sustainable nature. While these earth-based materials have long been used in heritage and contemporary buildings worldwide, their poor performance against water-mediated weathering is still considered to be a major drawback. The aim of this study is to examine the durability performance of non-stabilized CEBs currently produced in Cyprus and to enhance their resistance against water-mediated weathering by optimizing their granular composition. To that end, four soils originating from specific areas of the island, which have been well-known for their rich tradition in earthen heritage buildings, namely adobe masonry, and a fine crushed aggregate were used to produce several CEBs. These were examined both at macroscopic and microscopic level, while spray erosion, drip, capillary absorption and wet/dry appraisal tests were carried out to assess their performance against water attack. The results show that more than one testing methodologies have to be used to fully assess the resistance of CEBs against water decay. They also suggest that the addition of sand can significantly improve the durability of non-stabilized CEBs against water-mediated weathering. This may prove to be a benefit both for restoration projects and contemporary constructions with the use of CEBs.
AB - Compressed Earth Blocks (CEBs) have been attracting increasing research interest recently, because of their sustainable nature. While these earth-based materials have long been used in heritage and contemporary buildings worldwide, their poor performance against water-mediated weathering is still considered to be a major drawback. The aim of this study is to examine the durability performance of non-stabilized CEBs currently produced in Cyprus and to enhance their resistance against water-mediated weathering by optimizing their granular composition. To that end, four soils originating from specific areas of the island, which have been well-known for their rich tradition in earthen heritage buildings, namely adobe masonry, and a fine crushed aggregate were used to produce several CEBs. These were examined both at macroscopic and microscopic level, while spray erosion, drip, capillary absorption and wet/dry appraisal tests were carried out to assess their performance against water attack. The results show that more than one testing methodologies have to be used to fully assess the resistance of CEBs against water decay. They also suggest that the addition of sand can significantly improve the durability of non-stabilized CEBs against water-mediated weathering. This may prove to be a benefit both for restoration projects and contemporary constructions with the use of CEBs.
M3 - Article
VL - 57
SP - 184
EP - 193
JO - Journal of Cultural Heritage
JF - Journal of Cultural Heritage
ER -