Moving towards a performance-based design approach for cutting slopes in high PI clays
Moving towards a performance-based design approach for cutting slopes in high PI clays
The design of new, or the remediation of existing, cutting slopes in high-plasticity clay geologies is of considerable economic interest in the UK because they comprise a significant percentage of the UK’s existing and proposed linear transportation infrastructure.
The key metrics which asset owners need to understand to make informed decisions about these designs are capital cost and whole life cost (including the operational impact of future interventions or absence of interventions). Design is undertaken in a framework of code compliance which incorrectly gives the impression that different solutions either pass or fail, but it does address the question of comparative capital cost. It doesn’t, however, allow the designer to express the relative merits of different design options, because it is very difficult to quantify the functional design life of different designs, and therefore their whole-life cost. Some designs ‘pass’ more easily than others, but there is no tangible way of defining what this means in terms of those key asset management metrics.
This paper reviews the latest science on the performance of cutting slopes in high plasticity clays from the perspective of design. It shows that the potential impacts of long-term weather conditions add significant uncertainty to established, simplified, design approaches. It then proposes that there is an emerging opportunity to refocus design on performance, quantified through the concept of effective design life, rather than purely on compliance with calibrated partial factor models. The benefit of this is that design could be presented in terms of key asset management metrics and would become immediately more tangible to all stakeholders, with a consequence of facilitating more informed, and therefore, better decision-making.
Sartain, Nick
f11351ef-d9c0-4c08-ac7c-c69846ce1e44
Loveridge, Fleur
628a1b59-d131-47fd-9b2a-e9baf6e80e3d
Briggs, Kevin
8974f7ce-2757-4481-9dbc-07510b416de4
15 September 2025
Sartain, Nick
f11351ef-d9c0-4c08-ac7c-c69846ce1e44
Loveridge, Fleur
628a1b59-d131-47fd-9b2a-e9baf6e80e3d
Briggs, Kevin
8974f7ce-2757-4481-9dbc-07510b416de4
Sartain, Nick, Loveridge, Fleur and Briggs, Kevin
(2025)
Moving towards a performance-based design approach for cutting slopes in high PI clays.
Earthworks 2025: Proceedings of the 4th Biennial Conference of the British Geotechnical Association, University of Birmingham, Birmingham, United Kingdom.
15 - 18 Sep 2025.
7 pp
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
The design of new, or the remediation of existing, cutting slopes in high-plasticity clay geologies is of considerable economic interest in the UK because they comprise a significant percentage of the UK’s existing and proposed linear transportation infrastructure.
The key metrics which asset owners need to understand to make informed decisions about these designs are capital cost and whole life cost (including the operational impact of future interventions or absence of interventions). Design is undertaken in a framework of code compliance which incorrectly gives the impression that different solutions either pass or fail, but it does address the question of comparative capital cost. It doesn’t, however, allow the designer to express the relative merits of different design options, because it is very difficult to quantify the functional design life of different designs, and therefore their whole-life cost. Some designs ‘pass’ more easily than others, but there is no tangible way of defining what this means in terms of those key asset management metrics.
This paper reviews the latest science on the performance of cutting slopes in high plasticity clays from the perspective of design. It shows that the potential impacts of long-term weather conditions add significant uncertainty to established, simplified, design approaches. It then proposes that there is an emerging opportunity to refocus design on performance, quantified through the concept of effective design life, rather than purely on compliance with calibrated partial factor models. The benefit of this is that design could be presented in terms of key asset management metrics and would become immediately more tangible to all stakeholders, with a consequence of facilitating more informed, and therefore, better decision-making.
Text
Sartain et al_FinalSept2025
- Accepted Manuscript
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Published date: 15 September 2025
Venue - Dates:
Earthworks 2025: Proceedings of the 4th Biennial Conference of the British Geotechnical Association, University of Birmingham, Birmingham, United Kingdom, 2025-09-15 - 2025-09-18
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Local EPrints ID: 508631
URI: http://eprints.soton.ac.uk/id/eprint/508631
PURE UUID: 54e72163-f194-4d7b-a05f-5b6c231983d1
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Date deposited: 28 Jan 2026 17:55
Last modified: 29 Jan 2026 03:24
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Contributors
Author:
Nick Sartain
Author:
Fleur Loveridge
Author:
Kevin Briggs
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