Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Advancing Sustainability in Geotechnical Engineering
Geotechnical engineering is a key element linking engineering construction with the earth, including foundation engineering, slope engineering, tunnel engineering, mining engineering, etc. To promote the sustainable development of geotechnical engineering, it is necessary to fully utilize the bearing capacity of rock and soil mass; reduce the amount of building materials with high carbon emissions, such as concrete and reinforcement; and minimize the workload. To achieve engineering construction objectives, it has become a hot topic of global concern to modify rock and soil mass; improve the anti-floating, anti-flood, and anti-seismic capabilities of geotechnical engineering; and avoid polluting, damaging, and influencing the ecological environment around geotechnical engineering sites. The aim of ‘Advancing Sustainability in Geotechnical Engineering’ was to require geotechnical engineers to actively respond to various natural disasters, implement energy conservation and emission reduction, and achieve friendly, coordinated and sustainable development of geotechnical engineering and the ecological environment during the investigation, design, and construction processes. In addition, in this Special Issue, we hope to showcase original and innovative research papers highlighting the most challenging new methods, materials, equipment, and techniques relevant to promoting sustainable development in geotechnical engineering.
Advancing Sustainability in Geotechnical Engineering
Geotechnical engineering is a key element linking engineering construction with the earth, including foundation engineering, slope engineering, tunnel engineering, mining engineering, etc. To promote the sustainable development of geotechnical engineering, it is necessary to fully utilize the bearing capacity of rock and soil mass; reduce the amount of building materials with high carbon emissions, such as concrete and reinforcement; and minimize the workload. To achieve engineering construction objectives, it has become a hot topic of global concern to modify rock and soil mass; improve the anti-floating, anti-flood, and anti-seismic capabilities of geotechnical engineering; and avoid polluting, damaging, and influencing the ecological environment around geotechnical engineering sites. The aim of ‘Advancing Sustainability in Geotechnical Engineering’ was to require geotechnical engineers to actively respond to various natural disasters, implement energy conservation and emission reduction, and achieve friendly, coordinated and sustainable development of geotechnical engineering and the ecological environment during the investigation, design, and construction processes. In addition, in this Special Issue, we hope to showcase original and innovative research papers highlighting the most challenging new methods, materials, equipment, and techniques relevant to promoting sustainable development in geotechnical engineering.
Advancing Sustainability in Geotechnical Engineering
06.09.2024
Sonstige
Elektronische Ressource
Englisch
sandstone , water content , mechanical properties , acoustic emission , failure mode , EDEM , soil rheology , settlement , creep , plate foundation , geotechnical engineering , expansive soil , swelling , stabilization , foundations , uplift force , granular anchor pile , helical pile , numerical simulation , blind bolt , concrete-filled steel tubular column , T-stub , composite joint , finite element analysis , tunnel , TBM , fracture zone , microbial biomineralization , Sporosarcina pasteurii , potential gradient , calcium carbonate , anchor cable installation , disaster prevention , DEM-MBD joint simulation , bit anchor cable , dynamic characteristics , simplified design method , load efficiency , geosynthetic tension , geosynthetic-reinforced pile-supported embankments , compound dynamic disasters , rock burst , coal and gas outburst , gas pressure , briquette , foundation pit partition wall , spatial effects , adjacent pile foundation , support effect , rock mass classification
Sustainability and geotechnical engineering: perspectives and review
| British Library Online Contents | 2015
Sustainability and geotechnical engineering: perspectives and review
| Online Contents | 2015
Sustainability Concepts and Some Examples Common in Geotechnical Engineering
| British Library Conference Proceedings | 2014