has been cited by the following article(s):
[1]
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A review of conventional and alternative cementitious materials for geothermal wells
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Renewable and Sustainable Energy …,
2022 |
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[2]
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Thermal expansion fluid flow and thermal shock of cement and a cement/steel interface at elevated pressure and temperature.
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2020 |
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[3]
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Cements with supplementary cementitious materials for high-temperature geothermal wells
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2020 |
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[4]
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Structural Behavior of Hybrid Fiber Reinforced Concrete Elements
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2020 |
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[5]
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Thermal Expansion, Fluid Flow, and Thermal Shock of Cement and a Cement/Steel Interface at Elevated Pressure and Temperature
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2020 |
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[6]
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Self-healing, re-adhering, and carbon-steel corrosion mitigating properties of fly ash-containing calcium aluminum phosphate cement composite at 300° C …
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2019 |
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[7]
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Self-Healing, Re-adhering, and Corrosion-Mitigating Inorganic Cement Composites for Geothermal Wells at 270-300C
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2019 |
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[8]
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Self-healing and Crack-sealing Ability of 30-Day-Long 300 o C Cured Thermal Shock Resistant Cement Composites
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GRC Transactions,
2019 |
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[9]
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Thermal-Shock Resistant Cement for Heat Storage
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GRC Transactions,
2019 |
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[10]
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Self-Healing, Re-adhering, and Corrosion-Mitigating Inorganic Cement Composites for Geothermal Wells at 270°-300° C
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2019 |
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[11]
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Bond Durability of Carbon-Microfiber-Reinforced Alkali-Activated High-Temperature Cement Adhering to Carbon Steel
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2017 |
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[12]
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Self-repairing Geothermal Well Cement Composites
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2016 |
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[13]
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Use of Carbon Microfibers for Reinforcement of Calcium Aluminate-Class F Fly Ash cement activated with Sodium Meta-Silicate at up to 300◦ C
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2015 |
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[14]
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Use of carbon microfibers for reinforcement of calcium aluminate-class F fly ash cement activated with sodium meta-silicate at up to 300 C
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2015 |
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[15]
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Effect of nano additives on hydration and properties of cementitious materials at elevated temperatures
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T Pyatina, T Sugama, D Bour, P Beasant
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