Deformation processes below a plate sinkage test on sandy loam soil: experimental approach

• Published in: Journal of terramechanics Vol. 38; no. 3; pp. 153 - 162
• Main Authors: Earl, R, Alexandrou, A
• Format: Journal Article
• Language: English
• Published: Oxford Elsevier Ltd 01.07.2001; Elsevier
• Subjects: Applied sciences; Bearing capacity; Buildings. Public works; Compaction; Deformation; Earth sciences; Earth, ocean, space; Engineering and environment geology. Geothermics; Engineering geology; Exact sciences and technology; Geotechnics; Mathematical models; Sand; Sinkage; Soil; Soil mechanics; Soil mechanics. Rocks mechanics; Structure-soil interaction; Soil; Bearing capacity; Deformation; Compaction; Sinkage; Lateral load; Loadbearing capacity; Structure soil interaction; Axial load; Experimental study; Soil mechanics; Video recording; Sandy loam soil
• ISSN: 0022-4898; 1879-1204
• DOI: 10.1016/S0022-4898(00)00018-5

Mathematical models to predict the mode and extent of deformation occurring below sinkage plates are presented in the first part of this paper which encompasses the theoretical approach to the subject. These models are based on previous work by Earl (Earl R. Assessment of the behaviour of field soils during compression. Journal of Agricultural Engineering Research 1997;68:147–57)who developed a procedure to predict the likely mode of deformation using confined compression tests carried out alongside plate sinkage tests. This work suggested that soil behaviour, during increasing compression under a sinkage plate, is governed by three processes; (i) compaction below the plate with constant lateral stress, (ii) compaction with increasing lateral stress, and (iii) displacement and compaction of soil laterally. The aim of this second part to the paper is to observe soil deformation processes occurring below a circular sinkage plate to examine (i) whether the three phases of deformation referred to above occur in practice, and (ii) the accuracy of the models for predicting the soil deformation processes that occur. Tests were carried out on sandy loam soil under controlled conditions in a soil bin. Observations of deformation processes, recorded using long-exposure photography, revealed that during the initial stages of sinkage (a few millimetres), the corresponding disturbance of soil below the plate extended disproportionately further and was cylindrical in form. As sinkage progressed, the deformation process went through a transitional stage before reaching the more widely recognised form of the development of an inverted cone of compacted soil directly below the plate which moved with the plate causing lateral soil movement and compaction. Predictions for a medium density sandy loam were found to be in broad agreement with soil behaviour under a semi-circular sinkage plate observed behind a sheet of tempered glass under controlled conditions in a soil tank.