Circumferential strain behavior during creep tests of brittle rocks

Abstract

Abstract Creep tests were carried out on Inada granite under confining pressure and on dry and wet specimens of Kamisunagawa sandstone. Distinctive points QA (the point where the axial strain rate reaches a minimum), QC (the point where the magnitude of circumferential strain rate reaches a minimum) and RC (the point where the magnitude of circumferential strain acceleration begins to increase) were defined. Dependency of the strain values at the distinctive points on creep stress, confining pressure and water presence was examined. Circumferential strain at QC or RC was not affected by creep stress for both rocks. Peak load points were observed in reloading stress–strain curves when reloading was carried out before QC for Kamisunagawa sandstone. Circumferential strain values at peak load during reloading coincided with critical extensile strain, which is defined as circumferential strain value at peak load during constant strain rate tests and is insensitive to confining pressure, water presence, and anisotropy, although slightly affected by strain rate. Load increased slightly or did not increase when reloading was carried out after RC for both rocks. RC in creep tests scattered around unloading stress–strain curves from peak load during constant strain rate tests for Kamisunagawa sandstone. These observations suggest that QC and RC in creep tests are closely related to the peak load points during constant strain rate tests. Circumferential strain would be used as a condition-insensitive damage indicator of rock in creep tests as well as in constant strain rate tests.