Influence of Mo content on properties of Ti–Al–Mo–N films

Abstract

ABSTRACT Ti–Al–Mo–N composite films with different molybdenum content were deposited by reactive magnetron sputtering. The results showed that the films consisted of fcc-(Ti, Al, Mo) N substitutional solid solution within 8.2 at.-% Mo. The films consisted of two phases which were fcc-(Ti, Al, Mo) N substitutional solid solution and fcc-Mo2N at 27.7–49.4 at.-% Mo. The hardness increased slowly at 0–27.7 at.-% Mo and then increased rapidly at above 27.7 at.-% Mo. A ball-on-disc dry sliding test was conducted on films deposited on stainless-steel substrates. The friction coefficient quickly decreased within 8.2 at.-% Mo and then gently declined at 8.2–49.4 at.-% Mo. The value of wear rate remained quite constant for compositions in the range 0–34.3 at.-% Mo and then dropped quickly at 34.3–49.4 at.-% Mo. The addition of Mo content effectively improved the hardness and tribological properties of the films.