Energy Efficient Design for 3D Printed Earth Architecture

Dubor, Alexandre; Cabay, Edouard; Chronis, Angelos

doi:10.1007/978-981-10-6611-5_33

Cited by 12 publications

(8 citation statements)

References 2 publications

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“…The next project of the same group was TerraPerforma, where the material was described as “mud stabilized with fibers, sand and proteins”. It was a mortar with non-uniform shrinkage but higher than 7% of the initial extruded size and low strength (compressive strength < 0.2 MPa after 6 h) [ 41 ]. Digital Adobe was the tallest project executed by the IAAC group; it involved assembling modular blocks made of mortar based on clay, water, aggregates, and bio-based additives that were previously printed and cured.…”

Section: Processing Earth Materials For Additive Manufacturingmentioning

confidence: 99%

“…Figure 5 illustrates two common problems that frequently happen with rectangular nozzles when changing direction. The geometry of the object can influence shrinkage, as observed in the TerraPerforma project [ 41 ]; depending on the pattern and radius, resistance to cracks can be improved. Analyzing the bibliography, a gap was identified in the analysis of large-scale printed objects produced with clay materials in terms of their drying and shrinkage effects and mechanical performance.…”

Section: Processing Earth Materials For Additive Manufacturingmentioning

confidence: 99%

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Additive Manufacturing of Earth-Based Materials: A Literature Review on Mortar Composition, Extrusion, and Processing Earth

Rocha,

Faria,

Lucas

2023

Materials

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Increasing concerns about global warming and its impact on the environment reinforce the need for new materials and technologies. Additive manufacturing has become more relevant due to its potential to build sustainable and more energy-efficient constructions. However, the materials employed within the technology are not yet fully sustainable. Researchers employing clay as the main binder have found that, besides protecting the environment, it benefits passive control of indoor temperature and relative humidity and contributes to comfort. The mortar design as well as the necessary technological adaptations for the 3D printing of earth mortars are addressed. From a material perspective, this paper reviewed and analyzed the recent developments in additive manufacturing of clay-based mortars, highlighting the main gaps and providing recommendations for future developments in this field.

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Section: Processing Earth Materials For Additive Manufacturingmentioning

confidence: 99%

Section: Processing Earth Materials For Additive Manufacturingmentioning

confidence: 99%

Additive Manufacturing of Earth-Based Materials: A Literature Review on Mortar Composition, Extrusion, and Processing Earth

Rocha,

Faria,

Lucas

2023

Materials

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“…Even if digital earth construction is still in its early development in comparison to digital concrete, some scientific works have shown their potential and demonstrated the technical concept [40][41][42][43][44] and some industrial initiative have shown their applicability as a promising construction methods. In these works, digital earth relies on the adaptation of the 3D printing by extrusion/deposition methods to earthbased materials.…”

Section: Additive Manufacturing Of Earthen Materialsmentioning

confidence: 99%

Trends and opportunities of using local sustainable building materials in the Middle East and North Africa region

Sonebi

Abdalqader²,

Amziane³

et al. 2022

RILEM Tech Lett

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In recent decades, most of construction activities have been taking place in developing countries such as the Middle East and North Africa region. The expansion in infrastructure has great impact in the technological, social, economic and environmental transformation of this region. Construction sector contribution to Gross Domestic Product (GDP) varies throughout the region and ranges between 2-10%. Currently, sustainable construction requires integrated and comprehensive sustainable design including careful choice of materials and methods. Materials that are locally available and require less energy to produce and transport would pave the way to more sustainable practices. Many countries in the region have realised the benefits of using local building materials on the economy, society and environment. This paper outlines the key trends and opportunities of using sustainable and affordable local building materials in the region to respond to the global climate change crisis and to promote more sustainable and environmentally friendly practices. The current practice of using various building materials such as bio-based materials, treated municipal solid waste incineration bottom ash (MSWI-BA), construction and demolition waste, gypsum-containing by-products (phosphorgypsum, FGD gypsum, borogypsum and others) and rammed earth will be reviewed. It is concluded that the use of these local building materials in construction activities would foster the development of the society. However, some of these materials are already developed and reached the implementation stage while most of them are still at R&D stage. Therefore, there is an urgent need for a comprehensive local and regional strategies to enhance the utilization of these materials.

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“…It is usually clay based. Among the most effective experimentations we can find are Woven Clay (Friedman, Kim, and Mesa 2014), Pylos (Dubor, Cabay, and Chronis 2018), and InFormed Ceramics (Ko et al 2018) projects.…”

Section: Case Studies: Large-scale Digital Constructionmentioning

confidence: 99%

Additive Manufacturing Technologies in Restoration

Codarin

2020

cubic

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The current advancement of this research within the construction sector is the missing link for bridging the gap between the digitisation of building processes and the fabrication of architectural components. Renewed market needs and contemporary design languages require increasingly in-depth digital proficiency for the management of representation and production. The primary challenge of turning digital data into matter in the building design field must be overcome in order to demonstrate a possible transfer of benefits for new constructions, or interventions on existing buildings. The scientific community unanimously states the importance of deepening the most updated digital fabrication systems. With the aim of elaborating a methodological approach that prevents the technique from prevailing over the cultural assets a project requires, the present study proposes an innovative workflow for restoration projects on culturally relevant architecture in a state of degradation.

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Energy Efficient Design for 3D Printed Earth Architecture

Cited by 12 publications

References 2 publications

Additive Manufacturing of Earth-Based Materials: A Literature Review on Mortar Composition, Extrusion, and Processing Earth

Additive Manufacturing of Earth-Based Materials: A Literature Review on Mortar Composition, Extrusion, and Processing Earth

Trends and opportunities of using local sustainable building materials in the Middle East and North Africa region

Additive Manufacturing Technologies in Restoration

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