Influence of Negative-Bias Voltage on Mechanical Properties of Quaternary Ti(Nb)C(N) Coatings

Maria E. Gomez; J.C. Caicedo; C. Amaya; G.A. Mendoza; J. Alvarado-Rivera; J. Munoz-Saldana; P. Prieto

Influence of Negative-Bias Voltage on Mechanical Properties of Quaternary Ti(Nb)C(N) Coatings

POSTER

Abstract

Mechanical properties of quaternary Ti-Nb-C-N films via r.f magnetron sputtering process were studied by nanoindentation. The r.f. bias voltage was systematically varied from 0, -50, -100 V, keeping all other growth parameters fixed. Active vibration modes were analyzed by using Fourier transformed infrared spectroscopy (FTIR), where bands associated to Ti-N, Nb-C-N and Ti-C-N bonds, and to Ti-Nb-C-N stretching vibrations were found. Nanoindentation results reaching the elastic-plastic behavior of the Ti-Nb-C-N films indicate that both hardness and elastic modulus increase from 22 to 30 GPa and from 220 to 306 GPa, respectively. Thus, increasing the bias-voltage from 0 to -100V a clear improvement of hardness and elastic modulus were obtained.

^*Acknowledgments: This work has been partially supported by CENM-COLCIENCIAS contract 043-2005, CDT-ASTIN-SENA-Cali for sample growth; Department of Chemistry at Universidad del Valle for FTIR measurements; Caicedo thanks COLCIENCIAS for doctoral fellow.

Authors

Maria E. Gomez
- Universidad del Valle, Cali-Colombia
J.C. Caicedo
C. Amaya
G.A. Mendoza
J. Alvarado-Rivera
J. Munoz-Saldana
P. Prieto
- Excellence Center for Novel Materials