Nanoscale coal deformation and its geomechanics effect on pore structure evolution under hydrostatic and uniaxial compression conditions

Earth & Environmental Sciences

• geomechanics 100%
• hydrostatics 86%
• compression 62%
• coal 53%
• contraction 25%
• anisotropy 23%
• effect 18%
• neutron scattering 18%
• argon 14%
• gas 13%
• swelling 12%
• occupation 12%
• sorption 10%
• carbon dioxide 10%
• methane 10%
• in situ 8%
• matrix 8%

Physics & Astronomy

• hydrostatics 87%
• coal 86%
• porosity 58%
• gas injection 35%
• contraction 25%
• anisotropy 17%
• sorption 15%
• carbon dioxide 13%
• swelling 13%
• occupation 13%
• shrinkage 13%
• methane 12%
• neutron scattering 11%
• argon 10%
• injection 9%
• causes 8%
• matrices 7%
• molecules 7%

Chemical Compounds

• Coal 77%
• Pore Structure 76%
• Pore 26%
• Anisotropy 25%
• Pore Size 22%
• Small Angle Neutron Scattering 15%
• Gas 14%
• Methane 10%
• Carbon Dioxide 10%