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Soil-Structure Interaction
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It is crucial that scientists and engineers develop their expertise and capability through research and practice to quantify the interaction of infrastructure with the surroundings and the ground upon which they are founded. Therefore, the engineering concept ‘soil–structure interaction’ forms an integral part of delivering successful project outcomes. As the Lead and Honorary Editor for this Special Issue, Soil–Structure Interaction, I cordially invited the submission of esteemed articles related to recent projects, research, or case studies. These articles detail how geosciences (soil, rock, ground water, geochemistry, geology, hydrogeology, surface run-off, rain, wind, and temperature) directly interact with and impact the performance of human-made structures, buildings, or infrastructure through the following aspects: i) Underground construction; ii) Innovative ground improvement methods; iii) Geological explorations and interpretation; iv) Instrumentation and field observational method; v) Use of artificial intelligence or algorithms; vi) Forensic engineering or inverse-analysis methods; vii) Geophysical methods for soil or rock characterization; viii) Advancement in laboratory and field testing of geomaterials; ix) Advancement in numerical analysis; x) Advancement in multi-disciplinary design theories, codes of practice, and engineering education.
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Keywords
- analytical solution
- bi-directional static load test
- Biology, Life Sciences
- biopolymer soil interaction
- biopolymer-treated soils
- capping beam
- consolidated undrained strength
- contact pressure
- contiguous bored pile wall
- Continuum mechanics
- critical roughness
- deep excavation
- degree of saturation (DOS)
- dispersion curve
- drained and undrained conditions
- elastic settlement
- equivalent shape
- failure mechanism
- Finite element method
- friction development
- geotechnical properties
- Groundwater
- High performance computing
- in situ test
- interface shear test
- large diameter bored pile
- load transfer
- load–settlement response
- Mathematics & science
- Microbiology (non-medical)
- microstructure analysis
- n/a
- overconsolidated stiff clay
- PIV technology
- plastic strain
- Randolph method
- random or ribbed surface roughness
- Reference, information & interdisciplinary subjects
- repeated load triaxial test (RLT)
- Research & information: general
- resilient modulus
- rigid footings
- seismic dilatometer
- seismic response analysis
- shallow foundations
- shear wave
- silt content
- soft soil behaviour
- soft soil stabilisation
- soil improvement
- Soil mechanics
- soil spring
- soil structure interaction
- structural mechanics
- supercell
- surface roughness
- the modified closed-form analytical solutions
- two dimensional axisymmetric
- unbound granular materials (UGMs)
- unconfined compressive strength
- wall permeability
Links
DOI: 10.3390/books978-3-0365-6827-0Editions