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Evaluation of crack resistance of CrSiCN coatings as a function of Si concentration via nanoindentation

Evaluation of crack resistance of CrSiCN coatings as a function of Si concentration via nanoindentation
Evaluation of crack resistance of CrSiCN coatings as a function of Si concentration via nanoindentation
A series of CrSiCN coatings with various Si concentrations were deposited on Si(100) wafers, and the influence of Si content on the microstructure, mechanical property and crack resistance of the coatings was investigated by XRD, Raman spectroscopy and nanoindentation. After introducing (CH3)3SiH into precursor from 5 sccm to 30 sccm, the Si concentration increased from 0.97 at% to 7.00 at% with gradually increasing formation of amorphous SiCx and SiNx. Under low Si concentration (0.97~3.40 at%) condition, solid solution effect and formation of nc-Cr(C,N)/a-SiNx(a-SiCx) architecture caused an increase in hardness from 18.1 GPa to 21.3 GPa. In contrast, at high Si concentration (5.35~7.00 at%), larger grain separation, which resulted from the increase of a-SiNx(a-SiCx), led to a drop of hardness to a low range of 13.0 ~ 13.6 GPa and a decrease in compressive stress from 4.74 GPa to 2.78 GPa. As a result, superior elasticity and high compressive stress prevented the CrSiCN (Si<3.40 at%) coatings from radial crack, whereas the CrSiCN (Si?3.40 at%) coatings confronted. However, after unloading, unbalance of high compressive stress (4.74 and 4.83 GPa) in CrCN and CrSiCN (0.97 at%) coatings initiated cracks parallel to the indenter edge. On account of favorable H/E, H3/E2 and compressive stress, the CrSiCN coating with 2.05 at% Si presented the best mechanical property and crack resistance.
PVD coatings, nanoindentation, crack, residual stress, SEM
0257-8972
239-245
Wang, Qianzhi
696b2954-9bbe-4e19-a9d2-22435e55d9b4
Wu, Zhiwei
9c0029ce-c487-42bd-b1bb-2ecc13659a64
Zhou, Fei
aaf54725-aefa-4df9-a69c-07b3f60060fc
Huang, Hu
9f088453-3591-4b7c-b6f2-e002aa9eaa0f
Niitsu, Keiichiro
79727e9f-40ee-41ca-854d-625a78604636
Yan, Jiwang
5941b300-5771-4494-9bd0-bb932725d894
Wang, Qianzhi
696b2954-9bbe-4e19-a9d2-22435e55d9b4
Wu, Zhiwei
9c0029ce-c487-42bd-b1bb-2ecc13659a64
Zhou, Fei
aaf54725-aefa-4df9-a69c-07b3f60060fc
Huang, Hu
9f088453-3591-4b7c-b6f2-e002aa9eaa0f
Niitsu, Keiichiro
79727e9f-40ee-41ca-854d-625a78604636
Yan, Jiwang
5941b300-5771-4494-9bd0-bb932725d894

Wang, Qianzhi, Wu, Zhiwei, Zhou, Fei, Huang, Hu, Niitsu, Keiichiro and Yan, Jiwang (2015) Evaluation of crack resistance of CrSiCN coatings as a function of Si concentration via nanoindentation. Surface and Coatings Technology, 272, 239-245. (doi:10.1016/j.surfcoat.2015.04.001).

Record type: Article

Abstract

A series of CrSiCN coatings with various Si concentrations were deposited on Si(100) wafers, and the influence of Si content on the microstructure, mechanical property and crack resistance of the coatings was investigated by XRD, Raman spectroscopy and nanoindentation. After introducing (CH3)3SiH into precursor from 5 sccm to 30 sccm, the Si concentration increased from 0.97 at% to 7.00 at% with gradually increasing formation of amorphous SiCx and SiNx. Under low Si concentration (0.97~3.40 at%) condition, solid solution effect and formation of nc-Cr(C,N)/a-SiNx(a-SiCx) architecture caused an increase in hardness from 18.1 GPa to 21.3 GPa. In contrast, at high Si concentration (5.35~7.00 at%), larger grain separation, which resulted from the increase of a-SiNx(a-SiCx), led to a drop of hardness to a low range of 13.0 ~ 13.6 GPa and a decrease in compressive stress from 4.74 GPa to 2.78 GPa. As a result, superior elasticity and high compressive stress prevented the CrSiCN (Si<3.40 at%) coatings from radial crack, whereas the CrSiCN (Si?3.40 at%) coatings confronted. However, after unloading, unbalance of high compressive stress (4.74 and 4.83 GPa) in CrCN and CrSiCN (0.97 at%) coatings initiated cracks parallel to the indenter edge. On account of favorable H/E, H3/E2 and compressive stress, the CrSiCN coating with 2.05 at% Si presented the best mechanical property and crack resistance.

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More information

Accepted/In Press date: 1 April 2015
e-pub ahead of print date: 7 April 2015
Published date: 25 June 2015
Keywords: PVD coatings, nanoindentation, crack, residual stress, SEM
Organisations: nCATS Group

Identifiers

Local EPrints ID: 377159
URI: http://eprints.soton.ac.uk/id/eprint/377159
DOI: doi:10.1016/j.surfcoat.2015.04.001
ISSN: 0257-8972
PURE UUID: 49b7bfe4-afeb-49e8-8170-bbf949c94fad

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Date deposited: 27 May 2015 09:16
Last modified: 14 Mar 2024 19:57

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Contributors

Author: Qianzhi Wang
Author: Zhiwei Wu
Author: Fei Zhou
Author: Hu Huang
Author: Keiichiro Niitsu
Author: Jiwang Yan

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