Theory of effective stress in soil and rock and implications for fracturing processes: A review

The effective stress principle (ESP) plays a basic role in geology and engineering prob-lems as it is involved in fundamental issues concerning strain and failure of rock and soil, as well as of other porous materials such as concrete, metal powders, biological tissues, etc. Although since its introduction in the 1920s the main ESP aspects have been unravelled and theoretically derived, these do not appear to have been always entirely perceived by many in the science community dealing with ESP‐related topics but having little familiarity with the complex theories of porous media and poroelasticity. The purpose of this review is to provide a guidance for the reader who needs an updated overview of the different theoretical and experimental approaches to the ESP and related topics over the past century, with particular reference to geological fracturing pro-cesses. We begin by illustrating, after some introductive historical remarks, the basic theory un-derlying the ESP, based on theory of elasticity methods. Then the different ESP‐related theories and experimental results, as well as main interpretations of rock jointing and fracturing phenom-ena, are discussed. Two main classical works are then revisited, and a rigorous ESP proof is de-rived. Such a proof is aimed at geologists, engineers and geophysicists to become more familiar with theories of porous media and poroelasticity, being based on the classical theory of elasticity. The final part of this review illustrates some still open issues about faulting and hydraulic fracturing in rocks.