First-principles calculation of diamond/Al interface properties and study of interface reaction

Abstract: First-principles calculation and experimental methods are used to study the interfacial properties and reaction of diamond/Al composites. Based on the first-principles method, the interfacial adhesion work (<i>W</i>_ad), electronic structure and charge transfer of diamond/Al models are calculated systematically. The results show that the adhesion work of diamond(100)/Al(111) is 41% higher than that of diamond(111)/Al(111), therefore, the interface bonding of diamond(100)/Al(11… Show more

“…This is attributed to the difference in interface properties between diamond {100} and {111} planes and aluminum. The interface bonding between diamond {100} crystal planes and aluminum is stronger, and it also has a stronger tendency to form Al-C bonds [37]. The detailed characterization of the fracture morphology of uncoat minum composite is shown in Figure 7.…”

Effects of the In Situ Growth of CNTs on Ti-Coated Diamond Surfaces on the Mechanical Properties of Diamond/Aluminum Composites

“…This is attributed to the difference in interface properties between diamond {100} and {111} planes and aluminum. The interface bonding between diamond {100} crystal planes and aluminum is stronger, and it also has a stronger tendency to form Al-C bonds [37]. The detailed characterization of the fracture morphology of uncoat minum composite is shown in Figure 7.…”

Effects of the In Situ Growth of CNTs on Ti-Coated Diamond Surfaces on the Mechanical Properties of Diamond/Aluminum Composites

Synthesis, properties, and interface modification of carbon/aluminum composites for thermal management: a review

The interfacial reaction between diamond (100) surface and CuNi-based filler alloys containing Cr by first-principles calculations