The experiments and theoretical analysis on the thermal conductivity of AlN ceramic substrate are carried out.All the results prove the following viewpoints:the maximum thermal conductivity of AlN with a lower oxygen ...The experiments and theoretical analysis on the thermal conductivity of AlN ceramic substrate are carried out.All the results prove the following viewpoints:the maximum thermal conductivity of AlN with a lower oxygen concentration is higher and the thermal conductivity decreases with the increase of oxygen concentration in AlN ceramic;Y 2O 3 acting as a sintering additive should be mixed more into the AlN powder with a lower oxygen concentration.Secondary phases affect the thermal conductivity of AlN significantly.The quantitative relationship between the thermal conductivity and oxygen,Y 2O 3 is developed.展开更多
In order to develop the applications of ore tailings, the glass ceramics were prepared by using a conventional melting-quenching-sintering process. The phase component, microstructures, magnetic properties and thermal...In order to develop the applications of ore tailings, the glass ceramics were prepared by using a conventional melting-quenching-sintering process. The phase component, microstructures, magnetic properties and thermal conductivities of the prepared glass ceramics were investigated by using X-ray diffractometer, scanning electron microscopy, vibrating sample magnetometer and thermophysical properties tester, respectively. The results show that orthorhombic olivine-type phase and triclinic sunstone-type phase formed when the glass was annealed at 700 oC, the concentration of olivine-type and sunstone-type phases decreased, the spinel-type cubic phase occurred and the amount increased when the annealing temperatures increased. The magnetic properties from the cubic spinel ferrites were detected in the glass ceramics, and the related saturation magnetization increased with the annealing temperature increasing. The porous glass ceramics with magnetic property showed much lower thermal conductivity, compared with the non-magnetic porous glass-ceramic and the dense glass-ceramics.展开更多
The thermal diffusivity and heat capacity of β-SiAION ceramics with different Z values (0.6, 1.5, 3.0) were measured by laser flash technique and differential scanning calorimetry (DSC), respectively. The thermal...The thermal diffusivity and heat capacity of β-SiAION ceramics with different Z values (0.6, 1.5, 3.0) were measured by laser flash technique and differential scanning calorimetry (DSC), respectively. The thermal conductivity of β-SiAION was calculated from thermal diffusivity, heat capacity and density and it decreased and then kept almost constant with increasing of temperature. Two different models representing effective thermal conductivity were established and the various parameters of these models were simulated based on the results from the present work. The fitted regression lines were in good agreement with the experimental values.展开更多
文摘The experiments and theoretical analysis on the thermal conductivity of AlN ceramic substrate are carried out.All the results prove the following viewpoints:the maximum thermal conductivity of AlN with a lower oxygen concentration is higher and the thermal conductivity decreases with the increase of oxygen concentration in AlN ceramic;Y 2O 3 acting as a sintering additive should be mixed more into the AlN powder with a lower oxygen concentration.Secondary phases affect the thermal conductivity of AlN significantly.The quantitative relationship between the thermal conductivity and oxygen,Y 2O 3 is developed.
基金Project(51172287)supported by the National Natural Science Foundation of ChinaProject(2012-2013)supported by the Laboratory Research Fund of the State Key Laboratory of Powder Metallurgy,China
文摘In order to develop the applications of ore tailings, the glass ceramics were prepared by using a conventional melting-quenching-sintering process. The phase component, microstructures, magnetic properties and thermal conductivities of the prepared glass ceramics were investigated by using X-ray diffractometer, scanning electron microscopy, vibrating sample magnetometer and thermophysical properties tester, respectively. The results show that orthorhombic olivine-type phase and triclinic sunstone-type phase formed when the glass was annealed at 700 oC, the concentration of olivine-type and sunstone-type phases decreased, the spinel-type cubic phase occurred and the amount increased when the annealing temperatures increased. The magnetic properties from the cubic spinel ferrites were detected in the glass ceramics, and the related saturation magnetization increased with the annealing temperature increasing. The porous glass ceramics with magnetic property showed much lower thermal conductivity, compared with the non-magnetic porous glass-ceramic and the dense glass-ceramics.
基金supported by the National Natural Science Foundation of China(Grant No. 50332010)the National Basic Research Program of China ("973"Program)(Grant No. 2007CB613608)the National Science and Technology Supporting Program (Grant Nos. 2006BAC21B02-1,2007BAB24B03)
文摘The thermal diffusivity and heat capacity of β-SiAION ceramics with different Z values (0.6, 1.5, 3.0) were measured by laser flash technique and differential scanning calorimetry (DSC), respectively. The thermal conductivity of β-SiAION was calculated from thermal diffusivity, heat capacity and density and it decreased and then kept almost constant with increasing of temperature. Two different models representing effective thermal conductivity were established and the various parameters of these models were simulated based on the results from the present work. The fitted regression lines were in good agreement with the experimental values.
