Geotechnics

From soil to structure – managing ground condition uncertainty.

Ground conditions are one of the biggest uncertainties in construction projects – and one of the most difficult risks to understand.

From initial planning through to long term asset management, the latest analytical tools can offer significant benefits when combined with a sound understanding of ground behaviour and the judgments of skilled professionals.

What can we do for you?

Our geotechnics team have a track record of success, because we:

Innovate and pioneer new techniques and technologies

We adopt cutting-edge solutions and help our clients to understand their benefits, and we are constantly improving our methods and tools.

Apply adaptive design and resilience

We create structures that can withstand future developments and uncertainties, such as climate change and seismic events, and which use less carbon and natural resources.

Collaborate across disciplines and sectors 

We work closely with other practices and experts to deliver integrated and holistic solutions.

Share knowledge and best practices globally

We can leverage our global team to deliver solutions where they are needed and learn from our experiences in different regions and projects.

Services we provide

Geotechnical solutions for complex ground conditions

Serving clients in a range of sectors and throughout the world, we provide geotechnical engineering, design and advisory services to address a full range of needs.

Our experience

  • Bromford Portal observational method trial of DAARWIN software on HS2 Phase 1, UK
    Used on complex civil engineering projects, the observational method (OM) can deliver dramatic time, cost and safety benefits. It enables engineering designers and contractors during excavation to anticipate the movement of underground structures and existing infrastructure to safeguard the project, protect workers from harm and avoid damage to existing infrastructure. But even OM can be greatly enhanced with DAARWIN, a new software solution that employs machine learning.
  • Elizabeth Line, London, UK
    For this major new railway, we helped design the tunnel alignment under London and the connection of 41 fixed points. In addition to geotechnical reports, we used information from historic maps, details of future developments and protected buildings, aerial photography and our surface appraisal from walking the entire route to understand what buildings and infrastructure would be impacted on the surface and below ground. Our work also included integrating more than 50 operational and information systems to ensure synchronicity between stations, routeways, signalling and telecoms – all the systems that convert tunnels and stations into a functioning railway.
  • Marina Coastal Expressway, Singapore
    The expressway traverses an area of human-made land consisting of 30m to 40m of marine clay, which has the consistency of toothpaste and flows when subject to force. As excavation advances, external earth pressure becomes progressively greater – retaining walls want to cave in and the base of the excavation wants to heave up. Our geotechnical analysis helped to develop the robust engineering methods necessary to prevent undesirable ground movement and enabled faster, more efficient construction while meeting Singapore’s famously tough safety requirements.
  • Torrens Road to River Torrens Motorway, Adelaide, Australia
    A section of motorway forming the spine of this scheme, known as T2T, required 6km of retaining walls. The traditional solution would have been to build cantilevered contiguous piled walls using a significant amount of concrete. By applying an unconventional approach to Adelaide’s stiff clay soils, however, an optimised design – tailored to suit ground conditions – was produced. Steel nails 3m to 7m in length were drilled into the face of the excavated stiff clay walls and encased in grout, with a thin shotcrete surface layer providing stability. The solution provided huge cost savings, while also ensuring structural integrity of the wall and safety for motorists.

Daarwin (a partner solution)

Daarwin is an AI-powered solution for monitoring and predicting the behaviour of deep excavations, tunnels and earthworks. Its real-time analysis enables engineers to refine their designs as work advances, maintaining safety while unlocking opportunities for working faster and more resource-efficiently. Daarwin reduces risk and increases sustainability.

An overhead view of construction site.