Recent Advances in Nature-Inspired Solutions for Ground Engineering (NiSE)

The ground is a natural grand system; it is composed of myriad constituents that aggregate to form several geologic and biogenic systems. These systems operate independently and interplay harmoniously via important networked structures over multiple spatial and temporal scales. This paper presents a...

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Bibliographic Details
Published inInternational journal of geosynthetics and ground engineering Vol. 8; no. 1
Main Authors Assadi-Langroudi, Arya, O’Kelly, Brendan C., Barreto, Daniel, Cotecchia, Federica, Dicks, Henry, Ekinci, Abdullah, Garcia, Fernando E., Harbottle, Michael, Tagarelli, Vito, Jefferson, Ian, Maghoul, Pooneh, Masoero, Enrico, El Mountassir, Gráinne, Muhunthan, Balasingam, Geng, Xueyu, Ghadr, Soheil, Mirzababaei, Mehdi, Mitrani, Helen, van Paassen, Leon
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 01.02.2022
Springer Nature B.V
Subjects
Building Materials
Composite materials
Engineering
Environmental Science and Engineering
Foundations
Geoengineering
Hydraulics
Plant roots
State of the Art/Practice Paper
Synthetic fibers
Soil
Self-heal
Biomimicry
Improvement
Natural
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Summary:The ground is a natural grand system; it is composed of myriad constituents that aggregate to form several geologic and biogenic systems. These systems operate independently and interplay harmoniously via important networked structures over multiple spatial and temporal scales. This paper presents arguments and derivations couched by the authors, to first give a better understanding of these intertwined networked structures, and then to give an insight of why and how these can be imitated to develop a new generation of nature-symbiotic ground engineering techniques. The paper draws on numerous recent advances made by the authors, and others, in imitating forms (e.g. synthetic fibres that imitate plant roots), materials (e.g. living composite materials, or living soil that imitate fungi and microbes), generative processes (e.g. managed decomposition of construction rubble to mimic weathering of aragonites to calcites), and functions (e.g. recreating the self-healing, self-producing, and self-forming capacity of natural systems). Advances are reported in three categories of Materials, Models, and Methods (3Ms). A novel value-based appraisal tool is also presented, providing a means to vet the effectiveness of 3Ms as standalone units or in combinations.
ISSN:2199-9260
2199-9279
DOI:10.1007/s40891-021-00349-9