Geotechnics

• Risk assessment including site appraisals and desk studies.
• Site investigation and soil characterisation including comprehensive soil testing and analysis, geophysical surveys and subsurface mapping.
• Ground investigation management including tendering, field conditions, test scheduling, interpretation and design reporting.
• Conceptual modelling including selection of geotechnical parameters.
• Ground characterisation and modelling including ground movement prediction and control.
• Seismic analysis including seismic hazard assessment, liquefaction potential analysis and design of earthquake resistant structure and foundations.
• Slope stability analysis including assessment of natural and human-made slopes, landslide risk evaluation and mitigation, and design of stabilisation measures such as retaining walls and soil nailing.
• Numerical analyses for stability, earth pressures, deformation and pore pressure distribution, and their application to engineering designs.
• Adaptive design to create future-proof structures that can withstand the effects of climate change and seismic events.
• Ground improvement including soil stabilisation (chemical, mechanical and thermal), as well as compaction and consolidation, grouting and injection methods for weak soils.

We help clients to deal with different ground conditions, seismic hazards, regulatory codes and design solutions for various types of infrastructure projects by providing:

• General geotechnical consulting including geotechnical baseline reports (GBRs).
• Geo-seismic analysis including identification of geotechnical hazards and development of risk mitigation strategies.
• Numerical modelling including our bespoke ten-steps methodology for managing the implementation of numerical modelling.
• Soil structure interaction analysis.
• Hydrogeological analysis.
• Forensic geotechnical services.

• Quantifying sustainable indicators.
• Conducting lifecycle analysis.
• Designing to reduce carbon emissions and use of natural resources.
• Demonstrating sustainability performance.
• Assessing risks associated with construction in urban areas including ground and groundwater contamination, buried tanks, utilities, obstructions, waste management and the interaction of new developments within the existing built environment.

• Contaminated site assessment and remediation including earthworks classification, waste minimisation and onsite treatment.
• Integrating remediation strategies with engineering designs.
• Landfill design and waste containment systems.
• Groundwater protection and management.

• Assessment of ground type.
• Structural analysis including using ETABS (extended 3D analysis of building systems) to model structures.
• Creating designs to standards in the UK, Europe, North America and the Asia Pacific, including BS EN 1998-2004, Eurocode 8, Uniform Building Code 1997 and AS1170.4.
• Designing for a variety of structures including top heavy structures such as elevated water tanks, structures of high mass such as silos, existing structures requiring significant modification of loadbearing elements (for instance, ground floor retail modification), and heritage structures requiring strengthening to ensure a prolonged design life.