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Substantially, the effective stress definition is conventional and related to the problem being treated. [5] Among various effective stress formulations, Terzaghi's one seems particularly appropriate, for its simplicity and as it describes with excellent approximation a wide variety of real cases.
Erg Chebbi, Morocco. The effective stress can be defined as the stress, depending on the applied tension and pore pressure , which controls the strain or strength behaviour of soil and rock (or a generic porous body) for whatever pore pressure value or, in other terms, the stress which applied over a dry porous body (i.e. at =) provides the same strain or strength behaviour which is observed ...
Terzaghi combined his effective stress concept with Darcy’s law for fluid flow and derived a one-dimensional consolidation theory explaining the time-dependent deformation of soils as the pore fluid drains, which might be the first mathematical treatise on coupled hydromechanical problems in porous media.
Considered by many to be the father of modern soil mechanics and geotechnical engineering, Terzaghi developed the principle of effective stress, and demonstrated that the shear strength of soil is controlled by effective stress. [4] Terzaghi also developed the framework for theories of bearing capacity of foundations, and the theory for ...
At any point above the water table, in the vadose zone, the effective stress is approximately equal to the total stress, as proven by Terzaghi's principle. Realistically, the effective stress is greater than the total stress, as the pore water pressure in these partially saturated soils is actually negative.
(Terzaghi 1942) combined it with the principle of effective stress. In terms of effective stresses, the shear strength is often approximated by: = σ' tan(φ') + c' Where σ' = (σ - u), is defined as the effective stress. σ is the total stress applied normal to the shear plane, and u is the pore water pressure acting on the same plane.
where σ zc is the preconsolidation stress of the soil. This method assumes consolidation occurs in only one-dimension. Laboratory data is used to construct a plot of strain or void ratio versus effective stress where the effective stress axis is on a logarithmic scale. The plot's slope is the compression index or recompression index.
Terzaghi, K., From theory to practice in soil mechanics;: Selections from the writings of Karl Terzaghi, with bibliography and contributions on his life and achievents John Wiley and Sons (1967). Terzaghi, K., Proctor, R. V. and White, T. L., "Rock Tunneling with Steel Supports," Commercial Shearing and Stamping Co. (1946).