An extensive program of axisymmetric compression and extension tests was performed with synthetic granular, cohesive, frictional and dilatant, low strength/rigidity rock analogue material. The program was motivated in particular by the lack of rock tests under extension, and was aimed at a detailed characterization of the constitutive properties, and their dependence on loading conditions. This dependence was shown to be very significant particularly regarding the conditions of brittle-ductile transition and orientation of failure plans. In the extension tests, the above transition occurs at a mean stress σ that is 1.7 times greater than in compression tests, which corroborates the early results of Heard (1960 [1]) on Solnhofen limestone. The dilatancy factor β is larger under extension than under compression, and in both cases rapidly reduces with σ. The reported results can be used for improving the constitutive description of rock-like granular materials.