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Microstructure, Characterization and Mechanical Properties of Coal and Coal-Like Materials
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In view of the general trend that the development of the global energy industry is oriented toward green, low-carbon, and efficient utilization, scientific research teams in various fields dominated by the coal industry have conducted much research on coal and coal-like materials by borrowing the technologies and concepts of modern materials science and rock mass mechanics, hoping to explore new directions for the high value-added utilization of structural coal resources and the development of new coal-like materials. On behalf of Materials, we invited you to contribute an original research article to a Special Issue on the microstructure, characterization, and mechanical properties of coal and coal-like materials. This Special Issue aimed to showcase the latest scientific and technological achievements and cutting-edge test technologies in the study of coal and coal-like materials, with exploration of their structural change characteristics and mechanical properties under various influencing factors. Hot topics to be covered include: Analysis of mechanical properties of coal and coal-like materials;Multiscale characterization of coal and coal-like materials;Development and utilization of coal resources with high added value;Void structure and seepage characteristics of coal and coal-like materials;Establishment of constitutive relationships.
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Keywords
- acoustic emission
- additives
- ambient pressure effect
- anchored bedding rock material
- back-filling concrete
- co-carbonization
- co-pyrolysis
- coal and gangue
- coal and gas outburst
- coal tar pitch
- complete stress–strain process
- complex stress environment
- compression test
- Computed Tomography
- contact area
- cyclical loading
- damage evolution
- deep mining
- defects angles
- different parts
- digital analysis
- dynamic mechanics
- energy dissipation
- energy dissipation ratio
- energy evolution
- equivalent stiffness
- failure modes
- F–T action
- gas-containing coal
- gob-side entry retaining
- ground pressure behavior
- impact contact
- impact loading
- influencing factors
- instability mechanism
- Interaction
- inversion method
- Mathematics & science
- mechanical aperture
- microcrack evolution
- Microstructure
- mining roadway
- multi-level support
- multi-scale characterization
- n/a
- Numerical analysis
- Numerical Simulation
- parameters field
- particle flow code
- Permeability
- Physics
- Poisson’s ratio
- pressure film
- Reference, information & interdisciplinary subjects
- Research & information: general
- response differences
- rigid–flexible coupling
- roadway-concentrated areas
- rock
- rock discontinuity
- rock fractures
- Rock mechanics
- rupture precursor
- shear failure
- solid-gas coupling
- super-thick nappe
- surrounding rock
- thema EDItEUR::G Reference, Information and Interdisciplinary subjects::GP Research and information: general
- thema EDItEUR::P Mathematics and Science::PH Physics
- Young’s modulus
Links
DOI: 10.3390/books978-3-0365-7550-6Editions