Boron-carbon coatings are typically accomplished by ion-assisted methods that generate energetic species of tens to hundreds of electron volt to facilitate the nucleation and growth processes. These energetic particles simultaneously induce a significant intrinsic stress leading to the film delamination, limiting the achievable thickness of the films to approximately a few hundred nanometers and creating difficulties for their technical applications. In this paper we propose a plasma method using an RF (13.56 MHz) capacitive system as a deposition technique to realize B-C coatings with a low residual intrinsic stress. A stable coating has been obtained by deposition of a multilayered structure in conditions of very low deposition rate. SEM micrographs show that the layers making up the coating are dense, without pores or cracks, and with a good adhesion to the substrates.
Deposition of Boron-carbon multilayer coatings by RF plasma sputtering
Vassallo E;Caniello R;Cremona A;Croci G;Dellasega D;Grosso G;Miorin E;Passoni M;Tardocchi M
2013
Abstract
Boron-carbon coatings are typically accomplished by ion-assisted methods that generate energetic species of tens to hundreds of electron volt to facilitate the nucleation and growth processes. These energetic particles simultaneously induce a significant intrinsic stress leading to the film delamination, limiting the achievable thickness of the films to approximately a few hundred nanometers and creating difficulties for their technical applications. In this paper we propose a plasma method using an RF (13.56 MHz) capacitive system as a deposition technique to realize B-C coatings with a low residual intrinsic stress. A stable coating has been obtained by deposition of a multilayered structure in conditions of very low deposition rate. SEM micrographs show that the layers making up the coating are dense, without pores or cracks, and with a good adhesion to the substrates.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
