Effect of bias voltage on the growth of super-hard (AlCrTiVZr)N high-entropy alloy nitride films synthesized by high power impulse magnetron sputtering

Effect of bias voltage on the growth of super-hard (AlCrTiVZr)N high-entropy alloy nitride films synthesized by high power impulse magnetron sputtering

[Display omitted] •(AlCrTiVZr)N HEAN films are deposited by HiPIMS at different bias voltages.•Ionization fraction of the target elements in HiPIMS is higher than that in DCMS.•The flux and energy of ionized particles increases with increasing bias voltage.•The correlation of discharge characteristi...

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Bibliographic Details
Published in:Applied surface science Vol. 564; p. 150417
Main Authors: Xu, Yi, Li, Guodong, Li, Guang, Gao, Fangyuan, Xia, Yuan
Format: Journal Article
Language:English
Published: Elsevier B.V 30-10-2021
Subjects:
Bias voltage
Hardness
High-entropy alloy nitride films
HiPIMS
Microstructure
Plasma discharge characteristics
Plasma discharge characteristics
High-entropy alloy nitride films
HiPIMS
Microstructure
Hardness
Bias voltage
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Summary:[Display omitted] •(AlCrTiVZr)N HEAN films are deposited by HiPIMS at different bias voltages.•Ionization fraction of the target elements in HiPIMS is higher than that in DCMS.•The flux and energy of ionized particles increases with increasing bias voltage.•The correlation of discharge characteristics-structure-properties is discussed.•Excessive ion bombardment at high bias voltage deteriorates the HEAN films. The purpose of this paper is to explore the effect of bias voltage on plasma discharge characteristics, element concentration, microstructure, morphology, and mechanical properties of super-hard (AlCrTiVZr)N high-entropy alloy nitride (HEAN) films synthesized by high power impulse magnetron sputtering (HiPIMS). Results show that all HiPIMS-deposited (AlCrTiVZr)N films and the DCMS reference sample present a single NaCl-type FCC structure. Compared with DCMS, HiPIMS can produce a higher ionization fraction of the HEA target elements, thereby improving the structure and mechanical properties, while reducing the deposition rate. With increasing bias voltage in HiPIMS, the ion bombardment is continuously enhanced due to the increasing flux and energy of ionized particles reaching the films. The altered plasma environment splits the growth of (AlCrTiVZr)N films into two regions: The bias voltages of 0 V to −150 V offer a moderate ion bombardment effect, while further increasing bias voltage up to −200 V makes the ion bombardment effect excessive. It is observed that the (AlCrTiVZr)N films deposited at −150 V have a compact and featureless structure with preferred orientation of (111), the smallest grain size of 11.3 nm, a high residual compressive stress of −1.67GPa, thereby exhibiting the highest hardness of 48.3 GPa which attains the super-hard grade.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2021.150417