DHARMCOMPRESSIBILITY AND CONSOLIDATION OF SOILS 2131.21.00.80.60.4Void ration e00.2
400 800 1200 1600
PressureskN/m (log scale)^2Virgin compression curveOriginal compression
curve (if continued)Recompression curveRebound curveFig. 7.11 Virgin compression, rebound and recompression
curves for a clay (Arithmetic scale)1.21.00.80.60.4Void ratio e10 20 30 40 50 100 200 300 400 500 1000Rebound curvePressureskN/m (log scale)^21600 2000Recompression curve Virgin compression curve0.2
60 600Fig. 7.12 Virgin compression, rebound and recompression
curves for a clay (Pressure to logarithmic scale)
It may be noted from Fig. 7.12 that the curvature of the virgin compression curve at
pressures smaller than about 200 kN/m^2 resembles the curvature of the recompression curve
at pressures smaller than about 800 kN/m^2 from which the rebound occurred. This resem-
blance indicates that the specimen was probably subjected to a pressure of about 150 to 200
kN/m^2 at some time before its removal from the ground. Therefore, the initial curved portion
of the so-called virgin curve can be visualised as a recompression curve; it may also be con-
cluded that a convex curvature on this type of semi-logarithmic plot always indicates
recompression.
This past maximum pressure to which a soil has been subjected is called “Preconsolidation
pressure”; usually this term is applied in conjunction with the virgin curve, although it can
also be used in conjunction with a laboratory recompression curve.
As an example let us consider a soil sample obtained from a site from a depth z as shown
in Fig. 7.13 (a). The ground surface has never been above the existing level, and there never