Imperial College London
Portrait Picture

Dr James Lawrence

Faculty of EngineeringDepartment of Civil and Environmental Engineering

Reader in Geological Engineering
 
 
 
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Contact

 

+44 (0)20 7594 0700j.lawrence Website

 
 
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Assistant

 

Ms Sue Feller +44 (0)20 7594 6077

 
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Location

 

528ASkempton BuildingSouth Kensington Campus

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Summary

 

Publications

Citation

BibTex format

@inproceedings{Hadlow:2018:10.1680/eiccf.64072.711,
author = {Hadlow, NW and Lawrence, JA and Mortimore, RN},
doi = {10.1680/eiccf.64072.711},
pages = {711--720},
title = {Evaluation and prediction of anticipated depths of weathering (engineering rockhead) as a function of geomorphology in areas of chalk outcrop in southern England and northern France},
url = {http://dx.doi.org/10.1680/eiccf.64072.711},
year = {2018}
}
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RIS format (EndNote, RefMan)

TY  - CPAPER
AB  - Conceptual models of weathering in areas of chalk outcrop in southern England indicate that the depth of weathering and engineering rockhead are variable with respect to geomorphology. This variation is typically demonstrated by the transition from interfluve to valley with the depth of weathering changing as result of elevation and aspect. Valley axes are shown to have the deepest weathering, inter-fluves the shallowest and valley slopes a transitional depth with slope gradients on north-west facing slopes generally greater than southeast facing slopes. The main processes considered to have formed the weathering profiles in the Chalk of southern England are periglacial processes associated with seasonal freeze-thaw and mass movement in the last ice-age. In this study, analysis of historical site investigation data, including geophysical surveys, has allowed these conceptual models to be reviewed. This analysis has suggested that two physical transitions occur within the near-surface chalk rock mass that relate to geomorphology. The first, and deepest, transition is considered to represent an opening of discontinuities in the rock mass as a consequence of relaxation in the near surface due to unloading. The second transition is considered to represent an increase in discontinuity frequency in the rock mass due to formation of new discontinuities which progressively intensifies towards the surface. The base of the second transition is generally considered to be engineering rockhead for most engineering situations. Using the data reviewed, a model was developed to estimate the approximate position of these transitions based on relative ground surface elevation within a geomorphological domain. This model may be used to estimate the depth of engineering rockhead based on topographical data, such as a digital terrain model (DTM), in the absence of site investigation data for a site. This has applications for preliminary design where piled foundations or shallow tunnelli
AU  - Hadlow,NW
AU  - Lawrence,JA
AU  - Mortimore,RN
DO  - 10.1680/eiccf.64072.711
EP  - 720
PY  - 2018///
SP  - 711
TI  - Evaluation and prediction of anticipated depths of weathering (engineering rockhead) as a function of geomorphology in areas of chalk outcrop in southern England and northern France
UR  - http://dx.doi.org/10.1680/eiccf.64072.711
ER  -
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