| Title |
Investigation of microstructure and nanotribological properties of molybdenum doped diamond-like carbon films / |
| Translation of Title |
Molibdenu legiruotų deimantų tipo anglies plėvelių mikrostruktūros ir nanotribologinių savybių tyrimas. |
| Authors |
Zhairabany, H ; Khaksar, H ; Vanags, E ; Gnecco, E ; Marcinauskas, L |
| DOI |
10.15388/LNPC.2023 |
| eISBN |
9786090709818 |
| Full Text |
|
| Is Part of |
45-oji Lietuvos nacionalinė fizikos konferencija, 2023 m. spalio 25-27 d., Vilnius: programa ir pranešimų tezės.. Vilnius : Vilniaus universiteto leidykla, 2023. S1 - P70, p. 151.. eISBN 9786090709818 |
| Keywords [eng] |
Mo-doped diamond-like carbon ; microstructure ; friction coefficient ; nano-hardness |
| Abstract [eng] |
Nowadays, by using metals such as Ag, Ti, Ni, Cr, and Ag, as well as non-metals elements Si, O, N, and F as alloying materials, it is possible to change and modify the structure and properties of diamond-like carbon (DLC) films. This has led to extensive studies on the formation of doped DLC coatings to expand the application areas of these films [1-3]. Some dopants have already demonstrated the possibility of enhancing desirable properties for the different types of DLC films and in different application areas, such as biological implants [1]. The doping of DLC films with molybdenum (Mo) has demonstrated its role in enhancing tribological and mechanical properties. It was found that the Mo-DLC films demonstrated a lower compressive stress, friction coefficient values, enhanced corrosion and wear resistance as well improved hardness and biocompatibility [4-6]. It should be noted that the bonding structure and final properties of the Mo-doped DLC films strongly depend on the molybdenum concentration in the film [5-6]. [..]. |
| Published |
Vilnius : Vilniaus universiteto leidykla, 2023 |
| Type |
Conference paper |
| Language |
English |
| Publication date |
2023 |
| CC license |
|
