Wear Resistance of Cu/Ag Multilayers: A Microscopic Study

Abstract: The microscopic wear behavior of copper-silver multilayer samples was studied by performing sliding wear tests using a tribo-indenter. Multilayers with an average composition of CuAg and Ag layer thicknesses ranging from 2 to 20 nm were grown by magnetron sputtering. For reference, a homogeneous CuAg solid solution film was similarly grown. The thin films were subjected to two-dimensional wear tests by rastering a cono-spherical diamond indenter under loads of 100-400 μN for 1-20 consecutive passes or cycles. … Show more

“…This makes multilayered nanofilms an interesting nanomaterial for a multitude of applications, such as magnetic recording media, 5,6 radiationtolerant nuclear material, 2,3,7 interfacial thermal resistance material, 8,9 corrosion resistance material, 10,11 and wear resistance material. 12 Recently, there has been a strong interest in understanding the pronounced interfacial effects of heat transport processes in multilayers for their thermoelectric, 13−15 thermionic, 16,17 and thermomagnetic applications, 18 as well as thermal stability. 19 Botana et al predicted that the CrN/ MgO(111) multilayers have excellent thermoelectric applications because the heterostructures combined a large thermoelectric efficiency with scalable nanoscale conducting sheets.…”

Thermal Conductivity, Electrical Resistivity, and Microstructure of Cu/W Multilayered Nanofilms

“…This makes multilayered nanofilms an interesting nanomaterial for a multitude of applications, such as magnetic recording media, 5,6 radiationtolerant nuclear material, 2,3,7 interfacial thermal resistance material, 8,9 corrosion resistance material, 10,11 and wear resistance material. 12 Recently, there has been a strong interest in understanding the pronounced interfacial effects of heat transport processes in multilayers for their thermoelectric, 13−15 thermionic, 16,17 and thermomagnetic applications, 18 as well as thermal stability. 19 Botana et al predicted that the CrN/ MgO(111) multilayers have excellent thermoelectric applications because the heterostructures combined a large thermoelectric efficiency with scalable nanoscale conducting sheets.…”

Thermal Conductivity, Electrical Resistivity, and Microstructure of Cu/W Multilayered Nanofilms

Clarification of the Puzzled Effects of Cold Work on Wear of Metals from the Viewpoint of Wearing Energy Consumption

A Review: Microstructural and Phase Evolution in Alloys during Extended Plastic Deformation