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is reached which appears to be insurmountable. As we shall see later under conditions when two fluids, such as air and water, for instance, fill the pores, capillary effects occur and these are extremely important. So far, no significant success has been achieved in modeling these and, hence, studies of structures with free (phreatic) water surface are excluded. This, of course, eliminates the possible practical applications of the centrifuge for dams and embankments in what otherwise is a useful experimental procedure.

      1.3.1 A Single Fluid Present in the Pores – Historical Note

      If we thus define the total stress σ by its components σij using indicial notation, these are determined by summing the appropriate forces in the i‐direction on the projection, or cuts, dxj (or dx, dy, and dz in conventional notation). The surfaces of cuts are shown for two kinds of porous material structure in Figure 1.3 and include the total area of the porous skeleton.

      In the context of the finite element computation, we shall frequently use a vectorial notation for stresses, writing

      (1.1a)bold sigma identical-to left-bracket sigma 11 comma sigma 22 comma sigma 33 comma sigma 12 comma sigma 23 comma sigma 31 right-bracket Superscript normal upper T

      or

      (1.1b)bold sigma identical-to left-bracket sigma Subscript x Baseline comma sigma Subscript y Baseline comma sigma Subscript z Baseline comma tau Subscript italic x y Baseline comma tau Subscript italic y z Baseline comma tau Subscript italic z x Baseline right-bracket Superscript normal upper T

      This notation reduces the components to six rather than nine and has some computational merit.

      Now if the stress in the solid skeleton is defined as the effective stress σ′ again over the whole cross sectional area, then the hydrostatic stress due to the pore pressure, p acting, only on the pore area should be

      (1.2)minus delta Subscript italic i j Baseline italic n p

      where n is the porosity and δij is the Kronecker delta. The negative sign is introduced as it is a general convention to take tensile components of stress as positive.

      The above, plausible, argument leads to the following relation between total and effective stress with total stress

      or if the vectorial notation is used, we have

      where m is a vector written as

      (1.5)bold m equals left-bracket 1 1 1 0 0 0 right-bracket Superscript normal upper T

      Fillunger introduced the concepts implicit in (1.3) in 1913 but despite conducting experiments in 1915 on the tensile strength of concrete subject to water pressure in the pores, which gave the correct answers, he was not willing to depart from the simple statements made above.

      where nw is now called the effective area coefficient and is such that

      Much further experimentation on such porous solids as the concrete had to be performed before the above statement was generally accepted. Here the work of Leliavsky (1947), McHenry (1948), and Serafim (1954, 1964) made important contributions by experiments and arguments showing that it is more rational to take sections for determining the pore water effect through arbitrary surfaces with minimum contact points.

      Bishop (1959) and Skempton (1960) analyzed the historical perspective and, more recently, de Boer (1996) and de Boer et al. (1996) addressed the same problem showing how an acrimonious debate between Fillunger and Terzaghi terminated in the tragic suicide of the former in 1937.

      1.3.2 An Alternative Approach to Effective Stress

      Let

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