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On relative input of viscous shear into the elasticity equation at near-front, near-inlet and the major part of a hydraulic fracture (1808.05533v3)

Published 16 Aug 2018 in physics.flu-dyn

Abstract: The input of the hydraulically induced shear traction into the elasticity equation is estimated for the entire fracture surface. It is established that, except for negligibly small vicinities of a pointed source and of the fluid front, the relative input of the viscous shear does not exceed 10 - 4 of the input of the conventionally accounted term. The estimation is true for Newtonian, as well as non-Newtonian thinning fluids. This implies that there is no need to account for viscous shear not only in the form of conventional near-front asymptotics and fracture conditions, but also in factors entering them.