Mandal, P.P., Sarout, J., and Rezaee, R. (2021). Mechanical properties of Goldwyer shale from deformation experiment at in-situ stress – Part I. Submitted for Rock Mechanics and Rock Engineering journal.
Mandal, P.P., Sarout, J., and Rezaee, R. (2021). Creep behaviour, frictional slip properties and viscoelastic stress relaxation rheology model of Goldwyer shale from deformation experiment at in-situ stress – Part II. Under preparation for Rock Mechanics and Rock Engineering journal.
Mandal, P.P., Sarout, J., and Rezaee, R. (2021). Viscoelastic approach to capture varying least principal stress magnitude and the effect of observed stress layering on hydraulic fracturing- An example from shale formations of the Perth Basin. 55th US Rock Mechanics /Geomechanics Symposium, Houston, Texas.
Iqbal, M. A., Rezaee, R., Smith, G., and Mandal, P. P. Implications of thin laminations on pore structure of shale reservoir: Ordovician Goldwyer Formation Case study from Western Australia. The APPEA Journal. – Published.
Haitham, A., Mandal, P.P., Sarmadivaleh, M., and Rezaee, R. (2021). Possible in-situ stress perturbation and weaker overburden rock formation impacting borehole stability in the Pluto gas field, NWS, Western Australia. Natural Resources Research. Revision.
Mandal, P.P., Rezaee, R., and Sarout, J. (2020). Impact of the stress state and the natural network of fractures/faults on the efficiency of hydraulic fracturing operations in the Goldwyer shale formation. The APPEA Journal 60, no. 1 (2020): 163-83. https://doi.org/10.1071/AJ19025.
Mandal, P.P., Sarout, J., and Rezaee, R. (2020). Geomechanical appraisal and prospectivity analysis of the Goldwyer shale accounting for stress and formation anisotropy. International Journal of Rock Mechanics and Mining Sciences 135: 104513. https://doi.org/10.1016/j.ijrmms.2020.104513.
Chatterjee, R., Gupta, S.D. and Mandal, P.P. (2017). Fracture and stress orientation from borehole image logs: A case study from Cambay basin, India. J Geol Soc India 89, 573–580. https://doi.org/10.1007/s12594-017-0646-3.
