Plasma investigations and deposition of Me-DLC (Me = Al, Ti or Nb) obtained by a magnetron sputtering-RFPECVD hybrid process

“…This may be due to the large amount of carbides that play a role as an abrasive body that breaks down the carbon matrix and causes severe wear. In this case, the increase of roughness when Ti or Nb increase in Ti-DLC and Nb-DLC coatings, as discussed in [47], can explain the increase of friction coefficients of these coatings. Figure 12 shows the wear rate of Me-DLC (Me = Al, Ti or Nb) as a function of the Me/C ratio.…”

“…This is associated with a stabilization of the disorder for the high metallic content elements, related to the maintenance of the organization of graphitic clusters Csp 2 that are present in the carbon matrix [1]. At the same time, an increase in the positions of the two bands D and G towards the large wave numbers is observed as a function of the metal content in the coatings, as shown in [47].…”

“…The addition of a metallic dopant with weak content favours the sp 2 hybridation of carbon and disorder of the matrix (Section 3.1.2), which is associated with better friction behaviour and low wear rates. For higher metal contents, it has been shown that roughness increases significantly [47] and hardness decreases, which can explain the higher ware rates. rates.…”

“…The relative ratio of the D peak to G peak (I D /I G ), their positions and their FWHM (Full Width at Half Maximum) can be used to characterize the sp 3 /sp 2 bonding ratio. I D /I G and the peak positions of G and D bands were presented as a function of Me/C ratio in [47]. A sharp increase in the I D /I G ratio is observed when the metal dopants are incorporated in the DLC films.…”

“…It is also the sign of an increase in the size of the sp 2 type aggregates contained in the carbon matrix [56,59,60]. A stabilization of the I D /I G ratio was observed for Nb-DLC coatings for high values of the Nb/C ratio [47]. This is associated with a stabilization of the disorder for the high metallic content elements, related to the maintenance of the organization of graphitic clusters Csp 2 that are present in the carbon matrix [1].…”

Structure, Mechanical and Tribological Properties of Me-Doped Diamond-Like Carbon (DLC) (Me = Al, Ti, or Nb) Hydrogenated Amorphous Carbon Coatings

“…This may be due to the large amount of carbides that play a role as an abrasive body that breaks down the carbon matrix and causes severe wear. In this case, the increase of roughness when Ti or Nb increase in Ti-DLC and Nb-DLC coatings, as discussed in [47], can explain the increase of friction coefficients of these coatings. Figure 12 shows the wear rate of Me-DLC (Me = Al, Ti or Nb) as a function of the Me/C ratio.…”

“…This is associated with a stabilization of the disorder for the high metallic content elements, related to the maintenance of the organization of graphitic clusters Csp 2 that are present in the carbon matrix [1]. At the same time, an increase in the positions of the two bands D and G towards the large wave numbers is observed as a function of the metal content in the coatings, as shown in [47].…”

“…The addition of a metallic dopant with weak content favours the sp 2 hybridation of carbon and disorder of the matrix (Section 3.1.2), which is associated with better friction behaviour and low wear rates. For higher metal contents, it has been shown that roughness increases significantly [47] and hardness decreases, which can explain the higher ware rates. rates.…”

“…The relative ratio of the D peak to G peak (I D /I G ), their positions and their FWHM (Full Width at Half Maximum) can be used to characterize the sp 3 /sp 2 bonding ratio. I D /I G and the peak positions of G and D bands were presented as a function of Me/C ratio in [47]. A sharp increase in the I D /I G ratio is observed when the metal dopants are incorporated in the DLC films.…”

“…It is also the sign of an increase in the size of the sp 2 type aggregates contained in the carbon matrix [56,59,60]. A stabilization of the I D /I G ratio was observed for Nb-DLC coatings for high values of the Nb/C ratio [47]. This is associated with a stabilization of the disorder for the high metallic content elements, related to the maintenance of the organization of graphitic clusters Csp 2 that are present in the carbon matrix [1].…”

Structure, Mechanical and Tribological Properties of Me-Doped Diamond-Like Carbon (DLC) (Me = Al, Ti, or Nb) Hydrogenated Amorphous Carbon Coatings

Characteristics of DLC films doped with multi-element alloy

Synthesis and characterization of diamond-like carbon coatings for drill bits using plasma-enhanced chemical vapor deposition