2021
DOI: 10.3390/ma14216462
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Residual Stress and Tribological Performance of ZrN Coatings Produced by Reactive Bipolar Pulsed Magnetron Sputtering

Abstract: In the past few decades, ZrN thin films have been identified as wear resistant coatings for tribological applications. The mechanical and tribological properties of ZrN thin layers depend on internal stress induced by the adopted deposition techniques and deposition parameters such as pressure, temperature, and growth rate. In sputtering deposition processes, the selected target voltage waveform and the plasma characteristics also play a crucial influence on physical properties of produced coatings. In present… Show more

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Cited by 12 publications
(4 citation statements)
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“…This indicates that the coating did lose some hardness by the NiTi addition; however, the lower elastic modulus shows that in return it gained some elasticity. Table 6 compares the hardness and elastic modulus values of the Ni-P and Ni-P-NiTi coatings found experimentally to the typical values found in the literature on Ni-P coating [6,16,28,29], the NiTi alloy [16,30,31], and the AISI 1018 substrate [29,32]. Both coatings had considerably higher values than the typical range of AISI 1018.…”
Section: Hardnessmentioning
confidence: 67%
See 1 more Smart Citation
“…This indicates that the coating did lose some hardness by the NiTi addition; however, the lower elastic modulus shows that in return it gained some elasticity. Table 6 compares the hardness and elastic modulus values of the Ni-P and Ni-P-NiTi coatings found experimentally to the typical values found in the literature on Ni-P coating [6,16,28,29], the NiTi alloy [16,30,31], and the AISI 1018 substrate [29,32]. Both coatings had considerably higher values than the typical range of AISI 1018.…”
Section: Hardnessmentioning
confidence: 67%
“…The thinner coating's higher wear rate compared to the thick coating can be explained through the relationship between internal stresses present in the coating, and their expected effects on tribological behavior. Work by A. M. Laera et al [32] assessed the relationship between the residual stress in ZrO coating with its tribological behaviour and had found that compressive internal stresses correlate with higher wear resistance. We can assume the residual stresses in Ni-P coating thicknesses, as prior literature has found that thicker coatings have compressive residual stress while thinner coatings are tensile [23].…”
Section: Volume Loss and Wear Ratesmentioning
confidence: 99%
“…Although the values shown cannot be directly compared with those obtained by other authors because the tested pairs are different, these show the same trends in the behaviour of friction coefficients in dental enamel and dentin, as well as in materials of dental restoration [20,[22][23][24] On the other hand, in the morphology of the wear marks it can be found that for the ceramic material in dry conditions, the typical behaviour of ceramic materials is presented. These tend to fracture [25,26] due to the fatigue caused by the tests, which is reflected in the appearance of cracks and subsequent detachment of the material, as shown in Figure 4a. This same phenomenon is observed in lubricated conditions only on a smaller scale, as shown in Figure 5a, where it is observed that the saliva helped to reduce wear significantly, as shown in Figure 6.…”
Section: Discussionmentioning
confidence: 99%
“…Indeed, residual stresses can significantly affect a ceramic part’s mechanical properties, reliability and service life—either beneficially or detrimentally [ 4 ]. In the case of parts subjected to contact pressure or tribological stress, it becomes essential to compare these residual stresses before and after the tests [ 5 , 6 , 7 , 8 ]. Ideally, it would also be possible to determine the pressure distribution and its evolution throughout the contact at the interface under static or dynamic conditions.…”
Section: Introductionmentioning
confidence: 99%