Construction of 3D interconnected diamond networks in Al-matrix composite for high-efficiency thermal managemen
Thermal conductivity and microstructure of Al/diamond composites with Ti-coated diamond particles co...
L'augmentation constante de la fréquence de travail des dispositifs à base de semi-conducteurs avec ...
Traditional metal foams, which are incapable to meet the heat dissipation demands of today’s electro...
Realizing high-efficiency thermal management is of great significance for the fast growth of high-pe...
The increasing power density of electronic devices and components requires the development of new co...
A new design route is proposed in order to fabricate aluminum matrix diamond-containing composite ma...
The manuscript shows that nano-engineering the surface of diamond particles prior contacting the liq...
Diamond-based metal matrix composites have been made based on pure Al and eutectic Ag-3Si alloy by g...
We have successfully fabricated highly densified aluminum (Al)-diamond composite materials by a simp...
Diamond reinforced metals are being developed for use as highly sophisticated heat spreading materia...
Today, the microelectronics industry uses higher functioning frequencies in commercialized component...
Open-pore Mg foams, which have been traditionally discarded for heat dissipation applications given ...
The effects of processing conditions on the thermal conductivity (TC) of aluminum/diamond composites...
In this study, Al/diamond composites were fabricated by the gas pressure infiltration method. The in...
The mainstream fabrication technologies and the key factors affecting their thermal conductivity of ...
Thermal conductivity and microstructure of Al/diamond composites with Ti-coated diamond particles co...
L'augmentation constante de la fréquence de travail des dispositifs à base de semi-conducteurs avec ...
Traditional metal foams, which are incapable to meet the heat dissipation demands of today’s electro...
Realizing high-efficiency thermal management is of great significance for the fast growth of high-pe...
The increasing power density of electronic devices and components requires the development of new co...
A new design route is proposed in order to fabricate aluminum matrix diamond-containing composite ma...
The manuscript shows that nano-engineering the surface of diamond particles prior contacting the liq...
Diamond-based metal matrix composites have been made based on pure Al and eutectic Ag-3Si alloy by g...
We have successfully fabricated highly densified aluminum (Al)-diamond composite materials by a simp...
Diamond reinforced metals are being developed for use as highly sophisticated heat spreading materia...
Today, the microelectronics industry uses higher functioning frequencies in commercialized component...
Open-pore Mg foams, which have been traditionally discarded for heat dissipation applications given ...
The effects of processing conditions on the thermal conductivity (TC) of aluminum/diamond composites...
In this study, Al/diamond composites were fabricated by the gas pressure infiltration method. The in...
The mainstream fabrication technologies and the key factors affecting their thermal conductivity of ...
Thermal conductivity and microstructure of Al/diamond composites with Ti-coated diamond particles co...
L'augmentation constante de la fréquence de travail des dispositifs à base de semi-conducteurs avec ...
Traditional metal foams, which are incapable to meet the heat dissipation demands of today’s electro...
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