The evolution of temperature field of the continual motion induction cladding and the depth of heat affected zone are studied in this study.A three-dimensional finite element model for the point type continual inducti...The evolution of temperature field of the continual motion induction cladding and the depth of heat affected zone are studied in this study.A three-dimensional finite element model for the point type continual induction cladding is established to investigate temperature distributions of fixed and motion induction cladding modes.The novel inductor is designed for cladding of curved surfaces.The modeling reliability is verified by the temperature measurements.The influence of process parameters on the maximum temperature and the generation and transfer of heat are studied.Quantitative calculation is performed to its melting rate to verify the temperature distribution and microstructures.The results show that a good metallurgical bond can be formed between the cladding layer and substrate.The melting rate gradually falls from the top of the cladding layer to the substrate,and the grain size in the substrate gradually rises.The heat affected zone is relatively small compared to integral heating.展开更多
Gas injection-enhanced underground coal combustion for heat extraction represents a disruptive chemical fluidized extraction method of coal resources.Coal seam combustion dynamics provide crucial underpinnings for eng...Gas injection-enhanced underground coal combustion for heat extraction represents a disruptive chemical fluidized extraction method of coal resources.Coal seam combustion dynamics provide crucial underpinnings for engineering realization.This study establishes an experimental system for monitoring temperature field evolution during gas-assisted combustion in cylindrical coal cores,investigating the influence of moisture content(0%,16%,24%)on gas-assisted combustion kinetics.Results showed moisture content significantly influences combustion:higher levels(16%-24%)delay high-temperature expansion(0-1 h)due to evaporation energy absorption,but subsequently enhance efficiency through pore formation and oxygen diffusion,achieving 1120-1230°C peaks.Dry coal exhibits rapid initial combustion(peak temperature of 1130°C within 1 h)but weaker sustained reactions.The temperature field evolves from localized hotspots to an elliptical high-temperature zone,with axial expansion rates surpassing radial rates,driven by thermal buoyancy and convective heat transfer.Moisture’s dual role is revealed:initially as a thermodynamic inhibitor and later as a promoter by increasing pore diameter and oxygen diffusion coefficients.An optimal moisture content of 16%balances initial heat loss with enhanced reactivity,offering practical insights for optimizing gas injection and thermal recovery in underground coal combustion.展开更多
Identification of the meta-instable stress state and study of its mechanism and evolution of relevant physical fields would be of great significance for determination of potential seismic risks and estimation of criti...Identification of the meta-instable stress state and study of its mechanism and evolution of relevant physical fields would be of great significance for determination of potential seismic risks and estimation of critical times. In laboratory experiments, that the specimen enters the meta-instable is marked by accelerated stress release. Could we use the experimental result to identify the earthquake in natural conditions? Because the observational data from one station can only reflect the stress state beneath this station, the key problem for identification of the meta-instability is how to recognize regional stress state through observational data from many stations. In this work, we choose the evolution of the temperature field over varied deformation stages during a stick-slip event on a 5 bending fault as an example, and attempt to find the response features of the physical quantity when the fault enters the meta-instable state. We discuss the characteristics of stages for the stress build-up, stress-time process deviating from linearity before instability, meta-instability, instability, and post-instability, respectively. The result shows that the fault instability slide is a conversion process from independent activities of each fault segment to synergism activity. The instability implies completion of the synergism. The stage deviating from linearity is the onset of stress release, and it is also the onset of the synergism. At the meta-instability stages, stress release becomes dominant, while the synergism tends to finish. Therefore, the analysis of the regional overall stress state should not start from individual stations, and instead it should begin with the evolution of the whole deformation field.展开更多
In the past three decades, molecular magnetism has been a rapidly growing interdisciplinary field in chemistry, phys- ics and materials sciences. It covers diverse range of topics including inorganic/organic/hybrid ma...In the past three decades, molecular magnetism has been a rapidly growing interdisciplinary field in chemistry, phys- ics and materials sciences. It covers diverse range of topics including inorganic/organic/hybrid magnetic molecular ma- terials, multifunctional and/or switchable magnetic molecu- lar materials, molecular nanomagnets, nanostructural mo- lecular magnets, molecular spintronics and biomagnetism. Much research on molecular magnetism has been carried out in China both before and after we organized the Interna- tional Conference on Molecule-Based Magnets 2010 (ICMM 2010) in Beijing.展开更多
基金Project(51575415)supported by the National Natural Science Foundation of ChinaProject(2016CFA077)supported by the Natural Science Foundation of Hubei Province of ChinaProject(2018-YS-026)supported by the Excellent Dissertation Cultivation Funds of Wuhan University of Technology,China。
文摘The evolution of temperature field of the continual motion induction cladding and the depth of heat affected zone are studied in this study.A three-dimensional finite element model for the point type continual induction cladding is established to investigate temperature distributions of fixed and motion induction cladding modes.The novel inductor is designed for cladding of curved surfaces.The modeling reliability is verified by the temperature measurements.The influence of process parameters on the maximum temperature and the generation and transfer of heat are studied.Quantitative calculation is performed to its melting rate to verify the temperature distribution and microstructures.The results show that a good metallurgical bond can be formed between the cladding layer and substrate.The melting rate gradually falls from the top of the cladding layer to the substrate,and the grain size in the substrate gradually rises.The heat affected zone is relatively small compared to integral heating.
基金supported by the Key Project of Chongqing Special Program for Technological Innovation and Application Development(CSTB2024TIAD-KPX0099)the Graduate Research Innovation Project of Chongqing,China(CYB240050),the Fundamental Research Funds for the Central Universities(2025CDJZKKYJH-14)the State Key Laboratory of Coal Mine Disaster Dynamics and Control for 2030 major project(2011DA105287-MX2030-202101).
文摘Gas injection-enhanced underground coal combustion for heat extraction represents a disruptive chemical fluidized extraction method of coal resources.Coal seam combustion dynamics provide crucial underpinnings for engineering realization.This study establishes an experimental system for monitoring temperature field evolution during gas-assisted combustion in cylindrical coal cores,investigating the influence of moisture content(0%,16%,24%)on gas-assisted combustion kinetics.Results showed moisture content significantly influences combustion:higher levels(16%-24%)delay high-temperature expansion(0-1 h)due to evaporation energy absorption,but subsequently enhance efficiency through pore formation and oxygen diffusion,achieving 1120-1230°C peaks.Dry coal exhibits rapid initial combustion(peak temperature of 1130°C within 1 h)but weaker sustained reactions.The temperature field evolves from localized hotspots to an elliptical high-temperature zone,with axial expansion rates surpassing radial rates,driven by thermal buoyancy and convective heat transfer.Moisture’s dual role is revealed:initially as a thermodynamic inhibitor and later as a promoter by increasing pore diameter and oxygen diffusion coefficients.An optimal moisture content of 16%balances initial heat loss with enhanced reactivity,offering practical insights for optimizing gas injection and thermal recovery in underground coal combustion.
基金supported by the National Natural Science Foundation of China(Grant Nos. 40872129, 41172180)
文摘Identification of the meta-instable stress state and study of its mechanism and evolution of relevant physical fields would be of great significance for determination of potential seismic risks and estimation of critical times. In laboratory experiments, that the specimen enters the meta-instable is marked by accelerated stress release. Could we use the experimental result to identify the earthquake in natural conditions? Because the observational data from one station can only reflect the stress state beneath this station, the key problem for identification of the meta-instability is how to recognize regional stress state through observational data from many stations. In this work, we choose the evolution of the temperature field over varied deformation stages during a stick-slip event on a 5 bending fault as an example, and attempt to find the response features of the physical quantity when the fault enters the meta-instable state. We discuss the characteristics of stages for the stress build-up, stress-time process deviating from linearity before instability, meta-instability, instability, and post-instability, respectively. The result shows that the fault instability slide is a conversion process from independent activities of each fault segment to synergism activity. The instability implies completion of the synergism. The stage deviating from linearity is the onset of stress release, and it is also the onset of the synergism. At the meta-instability stages, stress release becomes dominant, while the synergism tends to finish. Therefore, the analysis of the regional overall stress state should not start from individual stations, and instead it should begin with the evolution of the whole deformation field.
文摘In the past three decades, molecular magnetism has been a rapidly growing interdisciplinary field in chemistry, phys- ics and materials sciences. It covers diverse range of topics including inorganic/organic/hybrid magnetic molecular ma- terials, multifunctional and/or switchable magnetic molecu- lar materials, molecular nanomagnets, nanostructural mo- lecular magnets, molecular spintronics and biomagnetism. Much research on molecular magnetism has been carried out in China both before and after we organized the Interna- tional Conference on Molecule-Based Magnets 2010 (ICMM 2010) in Beijing.
