TY - GEN
T1 - Exploring Robotic Fabrication Using Stimulated Soil
AU - Hillel, Roni
AU - Shaked, Tom
AU - Tsesarsky, Michael
AU - Sprecher, Aaron
N1 - Publisher Copyright:
© 2024, Education and research in Computer Aided Architectural Design in Europe. All rights reserved.
PY - 2024
Y1 - 2024
N2 - The concrete industry's significant CO 2 emissions and materia! usage have driven a shift towards sustainable construction, with a renewedfocus on using local materials like soil, now made viablefor modern construction through advancements in roboticfabrication. A key challenge with local soil is enhancing its strengthfor construction. TheMicrobially Induced Calcium Carbonate Precipitation method (MICP), which harnesses bacteria to harden soil, has emerged as a solution. Typically,MICP relies on exogenous bacteria cultivated in controlled environments, a resource-intensive process which is often challenging to apply in natural soil conditions. ThispaperproposesMICP through biostimulation of locally sourced soil bacteria, simplifying theprocess and allowingfor on-site applications. This study explores thepotential ofMICP by stimulation in construction, utilizing advanced roboticfabrication techniques. We aim to reduce the environmentalfootprint of traditional concrete methods and minimize waste while increasing efficiency andprecision using local soil by employing roboticfabrication techniques. Ourfindings are based on strength, mechanical, and performance tests, as well as experiments informative and additive manufacturing of domes, using a custom robotic 3Dprinting extruder in a lab setup. These experiments confirm the feasibility of using local soilfor sustainable construction. The results encourage further research to scale up the manufacturing process and enhance the material's structural strength.
AB - The concrete industry's significant CO 2 emissions and materia! usage have driven a shift towards sustainable construction, with a renewedfocus on using local materials like soil, now made viablefor modern construction through advancements in roboticfabrication. A key challenge with local soil is enhancing its strengthfor construction. TheMicrobially Induced Calcium Carbonate Precipitation method (MICP), which harnesses bacteria to harden soil, has emerged as a solution. Typically,MICP relies on exogenous bacteria cultivated in controlled environments, a resource-intensive process which is often challenging to apply in natural soil conditions. ThispaperproposesMICP through biostimulation of locally sourced soil bacteria, simplifying theprocess and allowingfor on-site applications. This study explores thepotential ofMICP by stimulation in construction, utilizing advanced roboticfabrication techniques. We aim to reduce the environmentalfootprint of traditional concrete methods and minimize waste while increasing efficiency andprecision using local soil by employing roboticfabrication techniques. Ourfindings are based on strength, mechanical, and performance tests, as well as experiments informative and additive manufacturing of domes, using a custom robotic 3Dprinting extruder in a lab setup. These experiments confirm the feasibility of using local soilfor sustainable construction. The results encourage further research to scale up the manufacturing process and enhance the material's structural strength.
KW - locally sourced soil
KW - MICP’ sustainable materials
KW - Roboticsfabrication
UR - http://www.scopus.com/inward/record.url?scp=85209803718&partnerID=8YFLogxK
U2 - 10.52842/conf.ecaade.2024.1.323
DO - 10.52842/conf.ecaade.2024.1.323
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AN - SCOPUS:85209803718
SN - 9789491207372
T3 - Proceedings of the International Conference on Education and Research in Computer Aided Architectural Design in Europe
SP - 323
EP - 332
BT - Proceedings of the 42nd Conference on Education and Research in Computer Aided Architectural Design in Europe, eCAADe 2024
A2 - Kontovourkis, Odysseas
A2 - Phocas, Marios C.
A2 - Wurzer, Gabriel
PB - Education and research in Computer Aided Architectural Design in Europe
T2 - 42nd Conference on Education and Research in Computer Aided Architectural Design in Europe, eCAADe 2024
Y2 - 9 September 2024 through 13 September 2024
ER -