Geotechnical, mineralogical and chemical interrelationships in weathering profiles of an overconsolidated clay

doi:10.1144/GSL.QJEG.1979.012.02.04

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Quarterly Journal of Engineering Geology and Hydrogeology; 1979; v. 12; issue.2; p. 107-116;
DOI: 10.1144/GSL.QJEG.1979.012.02.04
© 1979 Geological Society of London

Article

Geotechnical, mineralogical and chemical interrelationships in weathering profiles of an overconsolidated clay

D. J. Russell^*^, & A. Parker

^* Geology Department, University of Windsor, , Windsor, Ontario, Canada N9B 3P4.
Sedimentology Research Laboratory, The University, , Whiteknights, Reading, UK.

Weathering of Oxford Clay has been studied in five profilesfrom different areas. The well-known weathering reaction (pyrite+ calcite $->$ gypsum) is the major compositional change. The calcitedistribution in vertical profiles is distorted by the introductionof calcite-rich solifluction material above in situ weatheredclay. Although the correlation of calcite with depth is low,that of calcite with undrained shear strength is high. It isconcluded that, although interparticle bond weakening by calcitesolution is occurring, the calcite introduced from overlyingmaterial may be acting as a cement. Variations in bulk claymineralogy are small and do not follow consistent patterns.However, the crystallinity of illite in the clay fraction decreasestowards the surface; this may reflect the degradation of thecrystal structure at the particle margin, where bonding occurs.The weakening of overconsolidated clays is interpreted in termsof bond weakening following oxidation of pyrite; most weatheringchanges are concentrated near the base of the weathered zone,where this reaction occurs.

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