Accurate experimental determination of rock fracture toughness under simulated reservoir confining pressures

ANTINAO FUENTEALBA, FABIÁN J.; BIANCHI, LEANDRO N.; OTEGUI, JOSÉ L.; BIANCHI, GUSTAVO L.

THEORETICAL AND APPLIED FRACTURE MECHANICS

ELSEVIER SCIENCE BV

Año: 2022 vol. 120

0167-8442

Rock toughness under confining pressure is recognized as a key mechanical property to understand brittle fracture in oil and gas projects. This article discusses a linear elastic fracture mechanics method to assess the critical stress intensity factor (KIC) of shale rocks subjected to confining pressure. Linear elastic fracture toughness (KIC) is determined in Round Bar Straight-Notch (RBSN) samples by a novel experimental set up. The device uses a primary chamber to apply a fluid-driven load to induce Mode-I opening. A secondary and independent chamber ensures variable hydraulic confinement pressures, up to 80 MPa, and both systems are isolated by O-rings. This allows analyzing the influence of fluid composition, temperature and confinement pressure. Early testing and finite element modelling allowed validating experimental results and identifying possible sources of experimental errors. Experimental assessment is discussed in terms of KIC tests. The effects of confinement on KIC in terms of crack closure mechanisms are recognized, pointing out a plausible cause for increased toughness as confinement rises.