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GEO-SLOPE International Ltd, Calgary, Alberta, Canada www.geo-slope.com
SLOPE/W Example File: Spatial variation of soil properties (pdf)(gsz) Page 1 of 6
Spatial variation of soil properties
1 Introduction
The undrained strength of a soft soil deposit is frequently a function of the effective overburden; that is,
the strength varies with depth. Sometimes, the undrained strength can also vary laterally perhaps due to
some past loading of a confined area. A typical case is illustrated in Figure 1. The foundation contours
show the spatial variation of the undrained strength (cohesion). The undrained strength of the peat varies
laterally under the dam. The cohesion in the embankment is constant.
The total unit weight may also vary in a similar fashion.
Figure 1 An example of spatial variation of undrained strength (copied from the text book, Soil Strength and Slope Stability, by J.M. Duncan and S. G. Wright, page 147, published by John Wiley)
This type of situation can be defined in SLOPE/W with what are known as Spatial and Linear functions.
2 Foundation soil
2.1 Undrained strength - cohesion
The foundation undrained strength is defined with a spatial function. The undrained strength is specified
at a series of data points. It is necessary to specify the x-y coordinates of the Points and the Cohesion at
that point. The edit dialog box for specifying the data is presented in Figure 2.
The data can be specified by entering the numeric values for the x- and y-coordinates together with the
corresponding cohesion. Alternatively, data can be specified by entering a cohesion value and then
“Drawing” the points by clicking at appropriate locations.
GEO-SLOPE International Ltd, Calgary, Alberta, Canada www.geo-slope.com
SLOPE/W Example File: Spatial variation of soil properties (pdf)(gsz) Page 2 of 6
Figure 2 Illustration of x-y data points with a specified cohesion
Once the data points have been defined, SLOPE/W will contour the data within the region that has the
property of that particular spatial function, as illustrated in Figure 3.
Figure 3 Specified data points and resulting contours of the cohesion
GEO-SLOPE International Ltd, Calgary, Alberta, Canada www.geo-slope.com
SLOPE/W Example File: Spatial variation of soil properties (pdf)(gsz) Page 3 of 6
2.2 Foundation unit weight
The same can be done for the total unit weight of the foundation soil, as illustrated in Figure 4.
Figure 4 Variation of unit weight in the foundation
3 Peat layer
The lateral variation of the cohesion and unit weight in the peat can be defined with Linear functions, as
in Figure 5 and Figure 6.
Figure 5 Variation of the undrained strength in the peat layer
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Peat strength
Co
he
sio
n (
psf)
X (ft)
150
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-50-100-150 0 50 100 150
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SLOPE/W Example File: Spatial variation of soil properties (pdf)(gsz) Page 4 of 6
Figure 6 Variation of the unit weight in the peat layer
4 Embankment material
The properties of the embankment material are constant with respect to space or distance.
5 Material property contours
The final contours of cohesion and unit, as defined for the whole problem, are shown in Figure 7 and
Figure 8.
Figure 7 Contours of cohesion
Peat weightU
nit W
eig
ht (
pcf)
X (ft)
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-50-100-150 0 50 100 150
400
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800
1000
Mohicanville Dike
GEO-SLOPE International Ltd, Calgary, Alberta, Canada www.geo-slope.com
SLOPE/W Example File: Spatial variation of soil properties (pdf)(gsz) Page 5 of 6
Figure 8 Contours of unit weight
Note that the contours are not continuous across the geometric regions. Each region or group of regions with the
same function is contoured separately.
6 Cohesion along the slip surface
Figure 9 shows a typical potential slip surface. Figure 10 shows the variation in cohesion along the slip
surface.
Figure 9 A typical slip surface position
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Mohicanville Dike
GEO-SLOPE International Ltd, Calgary, Alberta, Canada www.geo-slope.com
SLOPE/W Example File: Spatial variation of soil properties (pdf)(gsz) Page 6 of 6
Figure 10 Variation of cohesion along the slip surface
Figure 10 is created with the Graph command in CONTOUR.
It is always advisable to spot check that the definition has been correctly used in the factor of safety calculations by
plotting parameters like cohesion along the slip surface, particularly when using material property functions.
7 Concluding comments
It is important to note that these spatial material property functions are unique to a particular problem and
a specific set of x-y coordinates. They cannot be used in other cases, unless the coordinate space and
problem definition are very similar.
This example vividly presents an illustration of how material properties that have a spatial variation can
be defined and used in SLOPE/W.
CohesionC
oh
esiv
e (
psf)
X (ft)
150
200
250
300
350
400
450
500
550
-20 0 20 40 60 80 100 120 140
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