High Temperature Triaxial Test of Zeolite Based Cement, Graphene Based Cement and Olivine Based CementLu, Yunxing and Bunger, Andrew (2021) High Temperature Triaxial Test of Zeolite Based Cement, Graphene Based Cement and Olivine Based Cement. [Dataset]
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AbstractTest data obtained from triaxial compression tests on cement with graphene, zeolite, and olivine additives. The experiments were performed at high temperature (90 Degree C) and high confining pressure (2000 psi) conditions. The series of experiments tests impact of different doses of graphene (0.008%, 0.016% & 0.05%), zeolite (5%, 15% and 30%), and olivine (5%, 15% and 30%). The data also includes results from a control group (neat cement). The data focuses on stress-strain curves that indicate stiffness and strength of each material. Supporting data for the following articles: Vissa SVK, Lu Y, Bunger AP, Crandall D, Radonjic M. 2021. Natural zeolite cement blend for geothermal wellbore applications: the zeolite mechanism in making resilient cement formulations. Geothermal Rising Conference (GRC), San Diego, CA, 3 Oct 2021. GRC Transactions (44), 236. Lu Y, Bunger AP, Achang M, Crandall D, Radonjic M. 2021. Evidence for Self-restoration of Olivine Based Cement (OBC) under Acidic Geofluids, High Temperature and High Pressure (AG-HT-HP) Conditions. Geothermal Rising Conference (GRC), San Diego, CA, 3 Oct 2021. GRC Transactions (44), 186. Massion C, Lu Y, Bunger AP, Crandall D, Achang M, Radonjic M. 2021. Improvement of Wellbore Cement by Addition of Graphene Nanoplatelets. Geothermal Rising Conference (GRC), San Diego, CA, 3 Oct 2021. GRC Transactions (44), 193. Share
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