?url_ver=Z39.88-2004&rft_id=10.18117%2Fpmt1-f254&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.relation=http%3A%2F%2Fd-scholarship-dev.library.pitt.edu%2F39754%2F&rft.title=Supporting+Data%3A+Effect+of+various+pore+fluids+on+the+strength+of+granite&rft.creator=Lu%2C+Guanyi&rft.creator=Zhao%2C+Wu&rft.creator=Zhang%2C+Jiangnan&rft.creator=Bunger%2C+Andrew&rft.description=Laboratory+three-point+bending+experiments+are+carried+out+to+evaluate+the+effect+of+various+fluids+on+the+tensile+strength+of+granite.+The+fluids+used+to+saturate+the+granite+include+distilled+water%2C+hydrochloric+acid+(HCl)%2C+sodium+hydroxide+(NaOH)%2C+kerosene%2C+and+hydraulic+oil.+Compared+to+dry+granite+specimens%2C+water%2C+HCl%2C+NaOH%2C+kerosene%2C+and+hydraulic+oil+reduce+the+tensile+strength+of+granite+by+26%25%2C+37%25%2C+28%25%2C+23%25%2C+and+41%25%2C+respectively.+The+test+data+indicates+that+aqueous+and+non-aqueous+solutions+have+a+similar+effect+on+reduction+of+the+tensile+strength+as+long+as+viscosity+is+similar.+Fluid+viscosity%2C+on+the+other+hand%2C+has+a+strong+impact+on+the+strength+with+higher+viscosity+leading+to+greater+strength+reduction.+The+experiments+suggest+that+chemical+fluid-rock+interaction+plays+a+minimal+role+in+these+experiments+where+failure+occurs+within+seconds+to+minutes+from+the+time+loading+commences.+On+the+other+hand%2C+the+mechanical+influence+of+the+fluid%2C+such+as+lubrication+of+grain+boundaries+and%2For+local+pore+pressure+generation+appears+to+play+a+more+important+role+in+the+determination+of+the+strength+of+granite.&rft.date=2020-09-25&rft.type=Dataset&rft.type=NonPeerReviewed&rft.format=application%2Fvnd.ms-excel&rft.language=en&rft.rights=cc_by_nd&rft.identifier=http%3A%2F%2Fd-scholarship-dev.library.pitt.edu%2F39754%2F1%2FLu_etal_complete_data_set_granite_bending.xlsx&rft.identifier=++Lu%2C+Guanyi+and+Zhao%2C+Wu+and+Zhang%2C+Jiangnan+and+Bunger%2C+Andrew++(2020)+Supporting+Data%3A+Effect+of+various+pore+fluids+on+the+strength+of+granite.++%5BDataset%5D++++(Submitted)++&rft.relation=10.18117%2Fpmt1-f254&rft.language=en