Plymouth sits on a geological boundary between Middle Devonian limestone and Upper Devonian slates, with the tidal estuaries of the Plym and Tamar laying down compressible alluvium and soft estuarine clays that reach depths of 15 metres in the Sutton Harbour area. A rigid pavement placed on these deposits without proper ground assessment will crack at the joints within the first two years. We approach every concrete pavement project by first characterising the subgrade through targeted site investigation, because a slab-on-grade is only as good as the support beneath it. BS 5930 and Eurocode 7 guide our ground model, while the pavement thickness design follows the principles of TRL 615 and BS 8204 for concrete bases. Where the natural ground is too weak, we assess alternatives like cement stabilisation or a granular capping layer before the concrete is poured. The combination of tidal groundwater and soft Made Ground across much of the city centre means that plate load testing on the prepared formation is a standard verification step before placing the slab, and we often pair it with in-situ permeability checks where drainage through the subgrade matters.
A rigid pavement in Plymouth fails from the bottom up: the concrete quality matters, but the subgrade stiffness matters more.
Methodology applied in Plymouth

Typical technical challenges in Plymouth
The most expensive mistake we see in Plymouth is pouring a rigid pavement directly onto uncontrolled fill without a capping layer. The old dockside areas and post-war bomb-damage backfill zones contain brick rubble, timber, and pockets of ash that settle unevenly under traffic load. Differential settlement of 10 to 15 mm across a slab panel is enough to open joints and initiate pumping of the subbase fines, which then erodes the support and leads to corner breaks. Another recurring problem is ignoring tidal groundwater. In the Cattedown and Coxside industrial estates, the water table rises and falls with the tide, saturating the granular subbase and reducing its modulus by half during high-water periods. We require groundwater monitoring through at least one full spring-neap cycle before finalising the drainage layer design. Omitting these steps saves a few thousand pounds upfront but costs a full reconstruction within five years, a trade-off that doesn't make sense for a pavement designed to last 40 years.
Our services
Our rigid pavement design work in Plymouth covers the full chain from ground investigation through to construction verification. Each project starts with a desk study of the British Geological Survey mapping, followed by intrusive investigation calibrated to the specific pavement loading.
Concrete pavement thickness design
Full analytical design per TRL 615 and BS 8204, including curling stress and fatigue analysis for the specified traffic class. We deliver joint layout plans, dowel bar schedules, and concrete specification sheets ready for the contractor.
Subgrade evaluation and improvement
Site-specific assessment of formation stiffness using plate load tests and dynamic cone penetrometer profiling. Where subgrade CBR falls below the design threshold, we specify cement or lime stabilisation depths and verify the treated layer modulus before slab placement.
Quick answers
What's the difference between rigid and flexible pavement for an industrial yard in Plymouth?
A rigid pavement distributes wheel loads through the flexural strength of the concrete slab itself, so it needs less reliance on the subgrade than a flexible pavement. In Plymouth, where the ground varies from stiff head deposits in Derriford to soft estuarine clay in Millbay, rigid pavements work well on moderate to good ground but require careful subgrade stabilisation on the softer sites. Flexible pavements are more forgiving of differential settlement but need thicker granular layers, which can be problematic where the water table is high. The right choice depends on the formation CBR, the traffic type, and how much future maintenance the owner is willing to accept.
How deep do you investigate the ground for a rigid pavement design?
We typically investigate to a depth of at least 2 metres below the proposed formation level, and deeper—often 4 to 5 metres—where soft alluvium or Made Ground is present, as is common across the Plymouth waterfront. The investigation includes trial pits for visual logging and plate load tests, plus dynamic cone penetrometer or SPT soundings to profile stiffness with depth. BS 5930 guides the spacing and depth of exploratory holes based on the site variability we see in the geological mapping.
What does a rigid pavement design for a Plymouth project cost?
For a typical industrial yard or access road in the Plymouth area, our rigid pavement design service ranges from £1,710 to £4,310, depending on the site area, the number of exploratory positions, and the complexity of the ground profile. A straightforward site on stiff head deposits in the north of the city falls toward the lower end, while a waterfront site with tidal groundwater and deep soft clay requires more investigation and analysis, placing it at the upper end of the range.
How long does the design process take from investigation to final drawings?
We usually complete the full process within three to four weeks. The first week covers the site investigation and in-situ testing, the second week is for laboratory concrete mix verification and subgrade analysis, and the final week produces the pavement design report with jointing plans and construction specifications. Sites in tidal zones like Cattedown may need an extra week for groundwater monitoring across a spring-neap cycle before we finalise the drainage layer design.