Recyclability, durability and water vapour adsorption of unstabilised and stabilised compressed earth bricks

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ORIGINAL ARTICLE

Recyclability, durability and water vapour adsorption of unstabilised and stabilised compressed earth bricks Agostino Walter Bruno Ce´line Perlot

. Blake Scott . Yann D’Offay-Mancienne .

Received: 8 July 2020 / Accepted: 17 November 2020 The Author(s) 2020

Abstract This paper investigates the recyclability, liquid water durability and water vapour adsorption of both unstabilised and stabilised compressed earth bricks. Stabilised bricks were manufactured by adding either cement or the biopolymer guar gum to the base earth. Unconfined compressive strength tests were then performed on both unstabilised and stabilised earth bricks manufactured with recycled material (i.e. material taken from the failed compressed earth bricks after the compressive strength tests). These tests enabled to assess the influence of recycling on the stiffness, strength and strain energy of all compressed earth bricks. Immersion and drip tests were subsequently performed to investigate the effect of cement and biopolymer stabilisation on the durability of the compressed earth bricks against the weathering action of water. An additional set of laboratory experiments was finally conducted by means of a Dynamic Vapour Sorption (DVS) system to study the effect of earth stabilisation on the capacity of adsorbing/releasing

water vapour as the ambient humidity changes. Outcomes from this experimental campaign showed that both unstabilised and biopolymer stabilised earth bricks maintained a similar mechanical performance after recycling, while cement stabilised bricks showed a remarkable reduction of both stiffness and strength. Finally, both cement and biopolymer stabilised bricks improved the liquid water durability while reducing the water vapour adsorption compared with the unstabilised earth bricks. Results from this experimental work will be useful for life cycle assessments, especially for modelling the end-of-life of the material as well as its potential reuse. Keywords Compressed earth bricks Stabilisation Recyclability Mechanical properties Liquid water durability Water vapour adsorption

1 Introduction A. W. Bruno (&) B. Scott Y. D’Offay-Mancienne School of Engineering, Geotechnics and Structures, Newcastle University, Devonshire Terrace Drummond Building Room 2.19, Newcastle upon Tyne NE1 7RU, UK e-mail: [email protected] C. Perlot Laboratoire SIAME, Fe´de´ration IPRA, EA4581, Universite´ de Pau Et Des Pays de L’Adour, 64600 Anglet, France

The adoption of the earth in mainstream construction is recently gaining the interest of engineers, architects and material scientists because of its eco-friendly credentials. Earth can be locally sourced and this significantly reduces the overall transportation needs [1]. The manufacturing of earth materials also requires little embodied energy compared with other building materials, such as cement or fired earth [2]. During their service life, earth materials exhibit an excellent

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Recyclability, durability and water vapour adsorption of unstabilised and stabilised compressed earth bricks

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