Exploring the effect of layer thickness on the elastoplastic properties of the constituent materials of CrN/CrAlN multilayer coatings: a nanoindentation and finite element-based investigation
Article dans une revue avec comité de lecture
Date
2024-11-15Journal
Thin Solid FilmsRésumé
This paper aims to assess the effect of layer thickness on the elastoplastic properties of the constituent materials of multilayer coating systems, as well as on the stress and strain fields in the vicinity of the coating/substrate interface. A methodology based on a trust-region reflective optimization algorithm, integrated with finite element analysis of the nanoindentation process, is employed to extract the elastoplastic properties of the distinct layers, constituting multilayer coating. This approach is validated on a CrN/CrAlN multilayer coating systems with varying layer thicknesses from 1 to 0.35 µm, by which Young's modulus (E), yield stress (σy), and work hardening exponent (n) of each individual coating material layer were obtained. The results revealed a reduction in the hardness and Young's modulus of either CrN, or CrAlN coating layer as the layer thickness decreased. Finite element analysis of the nanoindentation process demonstrated that decreasing the coating layer thickness leads to an increase in the plastic deformation within the coatings, which reduces the stress concentration in this area. The simulation results suggest that an optimum thickness of 0.5 μm of CrAlN and CrN monolayer materials would improve the adhesion properties of CrN/CrAlN multilayer coatings.
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- LaBoMaP_TSF_2024_Besnard.pdf
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- 5.848Mo
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- Article
- Fin d'embargo:
- 2025-05-15
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Article dans une revue avec comité de lectureBEN AMMAR, Yamen; AOUADI, Khalil; NOUVEAU, Corinne; BESNARD, Aurélien; MONTAGNE, Alex (Elsevier, 2022-06-26)This paper proposes an identification methodology based on nanoindentation analysis of coating/substrate system to extract the elastic-plastic properties of coating materials on elastic-plastic substrate when the indenter ...
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Communication avec acteBEN AMMAR, Yamen; AOUADI, Khalil; BOUCHOUCHA, Faker; NOUVEAU, Corinne; BESNARD, Aurélien; MONTAGNE, Alex (Springer Nature Switzerland, 2024-08-28)This paper presents an approach to characterize the elastoplastic properties of the distinct layers, constituting multilayer coating. The proposed procedure utilizes nanoindentation load-displacement (P-h) curves and a non ...
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Article dans une revue avec comité de lectureAOUADI, Khalil; BESNARD, Aurélien; TLILI, Brahim; CHAFRA, Moez; NOUVEAU, Corinne; MONTAGNE, Alex (Springer Science and Business Media LLC, 2021)CrN/CrAlN thin films were deposited by DC reactive magnetron sputtering. The influence of CrN/CrAlN bilayer thickness on the microstructure, mechanical, and tribological properties was studied. Crystallinity of the layers ...
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Communication avec acteBESNARD, Aurélien; NOUVEAU, Corinne; MONTAGNE, Alex; TLILI, B.; NAAMANE, S.; AOUADI, Khalil (Springer Nature Switzerland, 2023-09-13)In this study, CrN/CrAlN multilayer coating with different periods (Ʌ = 1, 2, 3, 4) were deposited on stainless steel (90CrMoV8) and silicon Si (100) samples by DC magnetron sputtering. The results obtained exhibited ...