Add to ORKGThermal conductivity and microstructure of Al/diamond composites with Ti-coated diamond particles consolidated by spark plasma sinterin
The increasing power density of electronic devices and components requires the development of new co...
Diamond-based metal matrix composites have been made based on pure Al and eutectic Ag-3Si alloy by g...
The effect of 15 vol% particulate diamond reinforcement on the thermal conductivity of a cordierite ...
Thermal conductivity and microstructure of Al/diamond composites with Ti-coated diamond particles co...
Aluminum matrix composites reinforced with diamond particles were consolidated by spark plasma sinte...
A new design route is proposed in order to fabricate aluminum matrix diamond-containing composite ma...
We have successfully fabricated highly densified aluminum (Al)-diamond composite materials by a simp...
The mainstream fabrication technologies and the key factors affecting their thermal conductivity of ...
Diamond has the highest thermal conductivity among naturally occurring materials and a relatively lo...
A prelude to the thermal management of grinding processes is measurement of the thermal properties o...
The manuscript shows that nano-engineering the surface of diamond particles prior contacting the liq...
Sintered diamonds are used in grinding because they offer better mechanical properties than conventi...
In this study, Al/diamond composites were fabricated by the gas pressure infiltration method. The in...
To meet the need of high-performance thermal management materials in the field of electronic applica...
Diamond/metal composites are very attractive materials for electronics because their excellent therm...
The increasing power density of electronic devices and components requires the development of new co...
Diamond-based metal matrix composites have been made based on pure Al and eutectic Ag-3Si alloy by g...
The effect of 15 vol% particulate diamond reinforcement on the thermal conductivity of a cordierite ...
Thermal conductivity and microstructure of Al/diamond composites with Ti-coated diamond particles co...
Aluminum matrix composites reinforced with diamond particles were consolidated by spark plasma sinte...
A new design route is proposed in order to fabricate aluminum matrix diamond-containing composite ma...
We have successfully fabricated highly densified aluminum (Al)-diamond composite materials by a simp...
The mainstream fabrication technologies and the key factors affecting their thermal conductivity of ...
Diamond has the highest thermal conductivity among naturally occurring materials and a relatively lo...
A prelude to the thermal management of grinding processes is measurement of the thermal properties o...
The manuscript shows that nano-engineering the surface of diamond particles prior contacting the liq...
Sintered diamonds are used in grinding because they offer better mechanical properties than conventi...
In this study, Al/diamond composites were fabricated by the gas pressure infiltration method. The in...
To meet the need of high-performance thermal management materials in the field of electronic applica...
Diamond/metal composites are very attractive materials for electronics because their excellent therm...
The increasing power density of electronic devices and components requires the development of new co...
Diamond-based metal matrix composites have been made based on pure Al and eutectic Ag-3Si alloy by g...
The effect of 15 vol% particulate diamond reinforcement on the thermal conductivity of a cordierite ...