Sustainability in Geotechnics: The Use of Environmentally Friendly Materials
Implementing environmentally friendly and cost-effective solutions is a pressing need to fulfill the United Nations Sustainable Development Goals (SDGs) set to be achieved by 2030. Thus, the requirement to execute the design, construction and maintenance of civil engineering structures and infrastru...
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Vieira, Castorina Silva edt Sustainability in Geotechnics: The Use of Environmentally Friendly Materials Sustainability in Geotechnics Basel MDPI - Multidisciplinary Digital Publishing Institute 2022 1 electronic resource (448 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Implementing environmentally friendly and cost-effective solutions is a pressing need to fulfill the United Nations Sustainable Development Goals (SDGs) set to be achieved by 2030. Thus, the requirement to execute the design, construction and maintenance of civil engineering structures and infrastructures as sustainably as possible are big challenges currently faced by civil and geotechnical engineers. This book, compiling the papers published during the 2020–2021 biennium in the Topical Collection, “Sustainability in Geotechnics: The Use of Environmentally Friendly Materials”, is intended help tackle those challenges. Several topics are covered by the 23 papers published herein, including: sustainable ground improvement techniques; replacement of raw materials such as soils and aggregates by recycled materials; soil reinforcement with alternative materials; sustainable solutions using geosynthetics; low-carbon solutions for stabilization of contaminated soils; and bioengineering techniques to prevent soil erosion. The Guest Editor expects that this book can be very useful towards the achievement of more environmentally friendly solutions, in particular in the field of geotechnical engineering. English Technology: general issues bicssc History of engineering & technology bicssc low carbon materials heavy metal immobilization sustainable remediation environmentally friendly materials sustainability in geotechnics recycled construction and demolition materials geogrids pullout behaviour pullout test parameters cement lime copper slag strength durability microstructure eCO2 embodied energy soda residue fly ash field test laboratory test mechanical property gypsum liners pavements PROMETHEE heavy metals soil enzyme solutions desorption extractant bioengineering techniques vegetative cover index slope’s superficial erosion phytosanitary aspects climatological conditions geosynthetics geotextile tubes sludge dewatering total solids polymer dosing response surface geomembrane HDPE thermal analysis sewage leachate incinerator bottom ash geotextiles mechanical damage sustainable engineering waste valorization soil improvement polypropylene strips geotechnical properties sustainable reuse of plastic waste recycled pet strips lateritic soil composite uniaxial tests shear strength small-strain stiffness ground improvement ground remediation local strain triaxial test geopolymer soil stabilization expansive soils sustainability benefits sustainable ground improvement oil-contaminated soils geotextile–polynorbornene liner pollutant adsorption diffusion permeability alteration microbial induced carbonate precipitation life cycle assessment energy consumption carbon emissions fine-grained soil tire-derived aggregate optimum moisture content maximum dry unit weight Bland–Altman analysis geogrid recycled materials interface shear strength large-direct shear test base course reinforcement pavement geotechnics recycled aluminum salt slag resilient modulus leachate analysis soil–cement recycled waste fatigue life subgrade compressive strength geogrid-reinforced soil structure substitute building material recycled material green infrastructure polypropylene fibers drained test stress–dilatancy wastes tires CDW PET bottles sustainability in geotechnical engineering sustainable ground remediation geopolymers 3-0365-3419-9 3-0365-3420-2 Vieira, Castorina Silva oth |
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English |
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Vieira, Castorina Silva |
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Vieira, Castorina Silva |
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title |
Sustainability in Geotechnics: The Use of Environmentally Friendly Materials |
spellingShingle |
Sustainability in Geotechnics: The Use of Environmentally Friendly Materials |
title_full |
Sustainability in Geotechnics: The Use of Environmentally Friendly Materials |
title_fullStr |
Sustainability in Geotechnics: The Use of Environmentally Friendly Materials |
title_full_unstemmed |
Sustainability in Geotechnics: The Use of Environmentally Friendly Materials |
title_auth |
Sustainability in Geotechnics: The Use of Environmentally Friendly Materials |
title_alt |
Sustainability in Geotechnics |
title_new |
Sustainability in Geotechnics: The Use of Environmentally Friendly Materials |
title_sort |
sustainability in geotechnics: the use of environmentally friendly materials |
publisher |
MDPI - Multidisciplinary Digital Publishing Institute |
publishDate |
2022 |
physical |
1 electronic resource (448 p.) |
isbn |
3-0365-3419-9 3-0365-3420-2 |
illustrated |
Not Illustrated |
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AT vieiracastorinasilva sustainabilityingeotechnicstheuseofenvironmentallyfriendlymaterials AT vieiracastorinasilva sustainabilityingeotechnics |
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(CKB)5680000000037735 (oapen)https://directory.doabooks.org/handle/20.500.12854/81218 (EXLCZ)995680000000037735 |
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Sustainability in Geotechnics: The Use of Environmentally Friendly Materials |
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