2019
DOI: 10.1080/00038628.2019.1606776
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Thermal performance exploration of 3D printed cob

Abstract: This paper investigates the thermal properties of 3D printed Cob, a monolithic earth construction technique based on robotically extruded subsoil and locally available organic fibres. The relevance of 3D printed earthen construction materials and the transition from vernacular construction towards a digitally-enabled process are critically discussed. The use of robotic manufacturing is outlined and the methodology to produce the necessary samples for thermal measurement is detailed. The results of the 3D print… Show more

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Cited by 44 publications
(22 citation statements)
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“…El Fgaier et al [32] work on three extruded raw earth bricks, produced by brickworks in France and composed by fine aggregates: they measure homogeneous λ-values around 0.9 W m −1− K −1 . Gomaa et al [41] present an interesting work on 3d-printed cob elements with 2% straw and cohesive soil, realized as solid elements, with two cavities and with one single straw-filled cavity: these specimens are tested in a heat flow meter and conductivities ranging from 0.32 W m −1− K −1 to 0.48 W m −1− K −1 are found, corresponding to dry densities from 1283.7 kg m −3 to 1780.3 kg m −3 . In the same work the authors report some materials developed inside the CobBauge Project 2018, where some English and French cohesive soils, suitable for cob constructions, have been mixed with hemp shiv, chopped reed and straw, with increasing proportions of 0%, 2%, 4% and 8% of the dry weight of soil.…”
Section: Thermal Conductivitymentioning
confidence: 99%
“…El Fgaier et al [32] work on three extruded raw earth bricks, produced by brickworks in France and composed by fine aggregates: they measure homogeneous λ-values around 0.9 W m −1− K −1 . Gomaa et al [41] present an interesting work on 3d-printed cob elements with 2% straw and cohesive soil, realized as solid elements, with two cavities and with one single straw-filled cavity: these specimens are tested in a heat flow meter and conductivities ranging from 0.32 W m −1− K −1 to 0.48 W m −1− K −1 are found, corresponding to dry densities from 1283.7 kg m −3 to 1780.3 kg m −3 . In the same work the authors report some materials developed inside the CobBauge Project 2018, where some English and French cohesive soils, suitable for cob constructions, have been mixed with hemp shiv, chopped reed and straw, with increasing proportions of 0%, 2%, 4% and 8% of the dry weight of soil.…”
Section: Thermal Conductivitymentioning
confidence: 99%
“…1, there are differences in volume between the 3D printed versions and the conventional method. The reason for this is that the 3D printed walls are combined with inner gaps in their design by default, which is a beneficial characteristic of the 3D printing technology that enables a reduction in the amount of construction material needed and an increase in the thermal performance of the walls (Veliz Reyes et al, 2018;Gomaa et al, 2019…”
Section: Study Goal and Scopementioning
confidence: 99%
“…Two comprehensive studies on 3DP cob have recommended a new cob mix that has reduced viscosity. Based on a number of 3D printing tests, the water content in the 3DP cob mixture was increased to 23-25%, while the amount of straw was fixed at 2% (Gomaa et al, 2019) (Table 2). (Le et al, 2012;Agustí-juan et al, 2017;Nerella et al, 2016;Anell 2015).…”
Section: Cobmentioning
confidence: 99%
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“…These criteria suggest that a 3D printing system of cob warrants further investigation as a potential pathway toward more sustainable 3DP practices, with a lesser environmental impact when compared to concrete 3D printing (Alhumayani et al 2020). Recent evidence supports this observation; an early study conducted on small material samples (Gomaa et al 2019) provides evidence that 3D printed cob elements have competitive thermal performance standards when compared to other materials such as concrete, brickwork, and conventional cob construction. A substantial share of recent research on 3DP for construction addresses 3D printing of cement and mortar-like materials.…”
Section: Introductionmentioning
confidence: 94%