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Journal Articles
Accepted Manuscript
Beichen Zhao, Yuedong Yao, Zheyu Xiao, Yafei Wei, Hanze Liu, Jiacheng Huang, Yapeng Tian, Jianchao Wang
Publisher: ASME
Article Type: Research Papers
J. Energy Res. Technol. Part B.
Paper No: JERTB-24-1047
Published Online: January 30, 2025
Journal Articles
Accepted Manuscript
Publisher: ASME
Article Type: Research Papers
J. Energy Res. Technol. Part B.
Paper No: JERTB-24-1070
Published Online: January 30, 2025
Journal Articles
Accepted Manuscript
João Carlos Von Hohendorff Filho, Antonio Bannwart, Valdir Estevam, Marcelo Souza Castro, Denis José Schiozer
Publisher: ASME
Article Type: Research Papers
J. Energy Res. Technol. Part B.
Paper No: JERTB-24-1023
Published Online: January 30, 2025
Journal Articles
Publisher: ASME
Article Type: Research Papers
J. Energy Res. Technol. Part B. April 2025, 1(2): 021007.
Paper No: JERTB-24-1129
Published Online: January 21, 2025
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 1 Heating furnace More about this image found in Heating furnace
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 2 Triaxial stress–strain testing machine: ( a ) main machine of triaxial stress–strain tester, ( b ) servo oil source and auxiliary control mechanism, and ( c ) data acquisition and control system More about this image found in Triaxial stress–strain testing machine: ( a ) main machine of triaxial stre...
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 3 High-temperature-treated cores: ( a ) the stratification of the sample Wx-60 is more obvious after heat treatment and ( b ) the fissure of sample Wx-100 was more obvious after heat treatment More about this image found in High-temperature-treated cores: ( a ) the stratification of the sample Wx-6...
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 4 Results of triaxial stress–strain tests on rock samples: Wx-20, Wx-60, Wx-100, Wx-150, Wx-200, Wx-300, and Wx-400 More about this image found in Results of triaxial stress–strain tests on rock samples: Wx-20, Wx-60, Wx-1...
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 4 Results of triaxial stress–strain tests on rock samples: Wx-20, Wx-60, Wx-100, Wx-150, Wx-200, Wx-300, and Wx-400 More about this image found in Results of triaxial stress–strain tests on rock samples: Wx-20, Wx-60, Wx-1...
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 5 Variation in elastic modulus and Poisson's ratio with temperature More about this image found in Variation in elastic modulus and Poisson's ratio with temperature
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 6 Variation in compressive strength and critical cutting depth with temperature More about this image found in Variation in compressive strength and critical cutting depth with temperatu...
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 7 Analysis of force on the PDC cutter during rock breaking More about this image found in Analysis of force on the PDC cutter during rock breaking
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 8 Calculation model of bottom-hole thermal stress for drilling in high-temperature formation: ( a ) drilling diagram in high-temperature formation, ( b ) high-temperature formation model meshing, and ( c ) result of mesh encryption of bottom-hole rock model. Schematic of drilling process and ... More about this image found in Calculation model of bottom-hole thermal stress for drilling in high-temper...
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 9 Calculation model of PDC cutter breaking rock: ( a ) isometric view and ( b ) side view More about this image found in Calculation model of PDC cutter breaking rock: ( a ) isometric view and ( b...
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 10 Stress distribution due to temperature difference between drilling fluid and rocks: ( a ) rock stress plane distribution under the action of drilling fluid and formation temperature difference and ( b ) longitudinal distribution of rock stress under the action of temperature difference bet... More about this image found in Stress distribution due to temperature difference between drilling fluid an...
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 11 Distribution of displacement induced by thermal stress: ( a ) plane distribution of rock displacement distribution under thermal stress and ( b ) longitudinal distribution of rock displacement under thermal stress More about this image found in Distribution of displacement induced by thermal stress: ( a ) plane distrib...
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 12 Thermal stress and temperature variation with depth of the bottom hole More about this image found in Thermal stress and temperature variation with depth of the bottom hole
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 13 Number of rock mesh units broken under various front rake angles More about this image found in Number of rock mesh units broken under various front rake angles
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 14 Time-dependent variation in rock-breaking stress More about this image found in Time-dependent variation in rock-breaking stress
Image
in Simulation of Rock-Breaking Ability of Polycrystalline Diamond Compact Cutter Based on Rock Mechanics Experiment After Heat Treatment
> Journal of Energy Resources Technology, Part B: Subsurface Energy and Carbon Capture
Published Online: January 21, 2025
Fig. 15 Relationship between rock-breaking stress and front rake angles More about this image found in Relationship between rock-breaking stress and front rake angles
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