The thermal boundary conductance (TBC) of materials pairs in atomically intimate contact is
reviewed as a practical guide for materials scientists. First, analytical and computational …

Copper/diamond composites have drawn lots of attention in the last few decades, due to its
potential high thermal conductivity and promising applications in high-power electronic …

Mo 2 C submicron layer coated diamond particles prepared by a molten salts route with Mo
powder as the starting material were used as the filler in Cu-and Al-matrix composites. The …

Diamond-reinforced metal matrix composites (DMMC) have great potential for wear-
resistance applications due to the superior hardness of the diamond component. Cold spray …

Interfaces and close proximity between the diamond and the metal matrix are very important
for their thermal conductance performance. Matrix-alloying is a useful approach to greatly …

Concentrating photovoltaic technology is one of the fastest growing solar energy
technologies achieving electrical conversion efficiency in excess of 43%. The operating …

Diamond powder with an average particle size of 200 μm was coated with tungsten and
tungsten carbide coatings of thickness 260 nm. Pulse Plasma Sintering (PPS) was then …

Boron (B) element is often utilized to enhance mechanical properties of stainless steel due
to its excellent performance. In this study, selective laser melting (SLM) was used to print …

Cr 7 C 3 coatings were formed on diamond particles for improving the wettability between
diamond particles and copper. The coatings were formed with a reaction medium of …

A gas pressure infiltration method was used to prepare diamond particles reinforced Cu-B
alloy matrix composites (Cu-xB/diamond, x= 0.3 and 1.0 wt%). The Raman spectroscopy …