Study on mechanical response and strain of frozen coal after ultra-low temperature
暂无分享,去创建一个
Bin Zhou | Shugang Li | Haifei Lin | Lei Qin | Chao Ma | Botao Li | Ruizhe Wang | Zitong Xue
[1] A. Garg,et al. Mechanical properties of cement soil improved using microbial-induced calcite precipitation , 2022, Arabian Journal of Geosciences.
[2] Guo-rui Feng,et al. Failure Analysis of Sandstone with Filled and Unfilled Cross-Flaws under Uniaxial Compression , 2022, Arabian Journal for Science and Engineering.
[3] S. Iglauer,et al. Coal cleat network evolution through liquid nitrogen freeze-thaw cycling , 2022, Fuel.
[4] F. Gao,et al. Effect of liquid nitrogen thermal shock on structure damage and brittleness properties of high-temperature marble , 2022, Geomechanics and Geophysics for Geo-Energy and Geo-Resources.
[5] F. Gao,et al. Numerical Evaluation on Stress and Permeability Evolution of Overlying Coal Seams for Gas Drainage and Gas Disaster Elimination in Protective Layer Mining , 2022, Mining, Metallurgy & Exploration.
[6] Shugang Li,et al. Mechanical damage mechanism of frozen coal subjected to liquid nitrogen freezing , 2022, Fuel.
[7] Changyue Shao,et al. Experimental studies on the physical and mechanical properties of heated rock by air, water and high-viscosity fluid cooling , 2022, Geomechanics for Energy and the Environment.
[8] Khalil Rehman Memon,et al. Influence of cryogenic liquid nitrogen cooling and thermal shocks on petro-physical and morphological characteristics of Eagle Ford shale , 2021, Journal of Natural Gas Science and Engineering.
[9] S. Iglauer,et al. Liquid nitrogen fracturing efficiency as a function of coal rank: A multi-scale tomographic study , 2021 .
[10] Liang Wang,et al. 3D visualization of tectonic coal microstructure and quantitative characterization on topological connectivity of pore-fracture networks by Micro-CT , 2021, Journal of Petroleum Science and Engineering.
[11] Chen Cao,et al. Laboratory Study of Deformational Characteristics and Acoustic Emission Properties of Coal with Different Strengths under Uniaxial Compression , 2021, Minerals.
[12] Khalil Rehman Memon,et al. Analysis of Mancos Shale gas production scenarios under various stress mechanisms , 2021, Arabian Journal of Geosciences.
[13] Xiaodong Zhang,et al. CO2 and N2 adsorption/desorption effects and thermodynamic characteristics in confined coal , 2021 .
[14] Ping Wang,et al. Gas adsorption capacity changes in coals of different ranks after liquid nitrogen freezing , 2021 .
[15] Ke Yang,et al. Dynamic tensile properties, deformation, and failure testing of impact-loaded coal samples with various water content , 2021, Scientific Reports.
[16] Ning Kang,et al. Simultaneous thermal analysis on the dynamical oxygen-lean combustion behaviors of coal in a O2/N2/CO2 atmosphere , 2021 .
[17] F. Du,et al. Damage evolution analysis and gas–solid coupling model for coal containing gas , 2021 .
[18] Yilei Liu,et al. Changes in Pore Structure and Permeability of Middle–High Rank Coal Subjected to Liquid Nitrogen Freeze–Thaw , 2020 .
[19] Khalil Rehman Memon,et al. Effect of Cryogenic Liquid Nitrogen on the Morphological and Petrophysical Characteristics of Tight Gas Sandstone Rocks from Kirthar Fold Belt, Indus Basin, Pakistan , 2020, Energy & Fuels.
[20] Aftab Ahmed Mahesar,et al. Morphological and petro physical estimation of Eocene tight carbonate formation cracking by cryogenic liquid nitrogen; a case study of Lower Indus basin, Pakistan , 2020 .
[21] Jiang Xu,et al. Breakdown process and fragmentation characteristics of anthracite subjected to high-voltage electrical pulses treatment , 2020 .
[22] He Li,et al. Experimental Study on Coal Damage Subjected to Microwave Heating , 2020, Rock Mechanics and Rock Engineering.
[23] Hongpu Kang,et al. An Experimental Investigation into the Strainburst Process Under Quasi-static Loading , 2020, Rock Mechanics and Rock Engineering.
[24] Jiake Li,et al. Investigating on the Iconic Gas Compositions Produced by Low-Temperature Heating Cotton , 2020, Symmetry.
[25] Qing-hua Zhu,et al. Multiscale Laboratory Study and Numerical Analysis of Water-Weakening Effect on Shale , 2020 .
[26] Yabin Gao,et al. Experimental study on gas diffusion dynamics in fractured coal: A better understanding of gas migration in in-situ coal seam , 2020 .
[27] Zhien Wang,et al. Study on the mechanical properties and damage constitutive model of frozen weakly cemented red sandstone , 2020 .
[28] S. Iglauer,et al. Pore-scale analysis of coal cleat network evolution through liquid nitrogen treatment: A Micro-Computed Tomography investigation , 2020 .
[29] Dongming Zhang,et al. Nuclear magnetic resonance study of the influence of the liquid nitrogen freeze‐thaw process on the pore structure of anthracite coal , 2020, Energy Science & Engineering.
[30] B. Shen,et al. Modeling Rock Fracture Propagation and Water Inrush Mechanisms in Underground Coal Mine , 2019 .
[31] Jianliang Zhang,et al. Status, technological progress, and development directions of the ironmaking industry in China , 2019 .
[32] Dongming Zhang,et al. Study on the pore evolution law of anthracite coal under liquid nitrogen freeze‐thaw cycles based on infrared thermal imaging and nuclear magnetic resonance , 2019, Energy Science & Engineering.
[33] Xin Bai,et al. Experimental Study on Mechanical Properties, Energy Dissipation Characteristics and Acoustic Emission Parameters of Compression Failure of Sandstone Specimens Containing En Echelon Flaws , 2019, Applied Sciences.
[34] F. Gao,et al. The effect of liquid nitrogen cooling on coal cracking and mechanical properties , 2018 .
[35] Shimin Liu,et al. Mechanical behavior and fracture spatial propagation of coal injected with liquid nitrogen under triaxial stress applied for coalbed methane recovery , 2018 .
[36] Oliver Sass,et al. Rock Moisture Fluctuations During Freeze-thaw Cycles: Preliminary Results from Electrical Resistivity Measurements , 2004 .