Work Area 1: Railway foundations / sub-base Professor William Powrie and Dr Jeffrey Priest
Current work Influence of PSR on sub-base performance Testing using Hollow Cylinder Apparatus (HCA) Work being undertaken by Anna Mamou Pore pressure response of embankments Testing using advanced tri-axial tests Work undertaken by Aingaa Sellaiya Influence of suction on soil stiffness Testing using modified Resonant column Work undertaken by Louise Otter
Background: Rotation of principal stresses as train passes over Influence of PSR on sub-base performance Background: Rotation of principal stresses as train passes over Adapted from Brown, S.F., “Soil Mechanics in Pavement Engineering”, Géotechnique 46, No. 3, 393.
Background Modelling of track behaviour has allowed us to quantify variation in direction of major principal stress at different depths below the centre line (Ko = 1.0). Representative stress paths can be applied to soil specimens to determine the influence of PSR on material behaviour
Advanced cyclic testing on soil specimens using Hollow Cylinder Apparatus
HCA allows both axial and shear stress to be applied to specimen independently
Effect of PSR at different stress ratios Research will investigate how material properties (Clay/Sand), magnitude of stress ratios, etc. influence the effect of PSR
Climate change impacts on embankment behaviour Many of the UK’s railway embankments were built >100 years ago from loosely compacted clay fill. The clay fill is highly heterogeneous and has high volume change potential. During dry summers, embankment shrinkage causes track deformation requiring train speed restrictions. During wet winters, embankment swelling and loss of shear strength can cause major slope failures and network disruption. This has been linked to weather influencing pore water pressures within the fill.
Finite element modelling using Vadose/w of a site at Charing, near Ashford showed saturated and unsaturated water flow in response to a climate boundary condition. Changes in pore pressure lead to shrink/swell behaviour of embankment
Laboratory testing using advanced triaxial apparatus will be conducted to investigate changes in soil behaviour as a result of cycling pore pressure
Influence of suction on soil stiffness Near surface soils are likely to be unsaturated at some point during the year. In future climate scenarios, unsaturation is likely to be greater in degree and persist for longer periods When unsaturated, pore water within the soil will be in suction. What influence will this have on soil stiffness? What factors, such as soil density, soil fabric, etc, affect it? Brief intro to problem
Unsaturated Soil lo305@soton.ac.uk
Matric Suction lo305@soton.ac.uk
Degree of suction related to the water content in the soil Degree of suction related to the water content in the soil. However, although suction increases its influence of soil behaviour will reduce Swcc curve showing suction ranges and likely suction that may be predicted in-situ
Resonant Column adapted to allow both internal air pressure and water pressure to be controlled. Resonant column allows non-destructive testing of soil specimens Modified apparatus to allow pore air pressure, and pore water to be controlled (inset shows high air entry porous stone), and made sample on pedastal. Drive head highlighted to show dynamic exciatation
Water content changes seem to influence G, at 8-10% water content the clay mixes are nearly saturated and so high suctions occur at small contact areas and does not influence global behaviour
Recent publications Quinn D, Hayward M, Baker CJ, Schmid F, Priest J. A., Powrie W., (2010). "A full-scale experimental and modelling study of ballast flight under high speed trains." Proc. IMechE: Part F: J. Rail and Rapid Transport, 224:2, 61-74 DOI: 10.1243/09544097JRRT294 Priest J. A., Powrie W., Yang L. A., Grabe P.J., Clayton C. R. I., (2010). "Measurements of transient ground movements below a ballasted railway line." Geotechnique, 60(9), 667-677 DOI: 0.1680/geot.7.00172 Priest J. A., Powrie W., (2009). "Determination of dynamic track modulus from measurement of track velocity during train passage." J. Geotech. and Geoenvir. Engrg. Volume 135, Issue 11, pp. 1732-1740 DOI: 10.1061/(ASCE)GT.1943-5606.0000130 Yang L. A., Powrie W., Priest J. A., (2009). "Dynamic stress analysis of a ballasted railway track bed during train passage." J. Geotech. and Geoenvir. Engrg. Volume 135, Issue 5, 680-689 DOI: 10.1061/(ASCE)GT.1943-5606.0000032 Holscher P, Werweij A, Coelho B, Kremer A, Priest J. A., Powrie W., (2009). "Field test for reduction of maintenance of railway transition zones." 17th International Conference on Soil Mechanics & Geotechnical Engineering, Alexandria, Egypt 5-9 October 2009