Structure and properties of hard and superhard Zr–Cu–N nanocomposite coatings
Author:
Publisher
Elsevier BV
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference34 articles.
1. Growth of single‐crystal TiN/VN strained‐layer superlattices with extremely high mechanical hardness
2. Growth, structure, and microhardness of epitaxial TiN/NbN superlattices
3. Reactive unbalanced magnetron sputter deposition of polycrystalline TiN/NbN superlattice coatings
4. Enhanced hardness in lattice‐matched single‐crystal TiN/V0.6Nb0.4N superlattices
5. Mechanical properties and microstructures of polycrystalline ceramic/metal superlattices: TiN/Ni and TiN/Ni0.9Cr0.1
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1. Self-formation of dual-phase nanocomposite Zr–Cu–N coatings based on nanocrystalline ZrN and glassy ZrCu;Materials & Design;2024-09
2. Designing Cu chemical distribution in Ti(AlCu)N coatings for enhanced erosion-corrosion and antibacterial performance;Applied Surface Science;2024-03
3. Microstructure evolution and mechanical behavior of magnetron sputtering AlN–Al nanostructured composite film;Ceramics International;2024-02
4. Self-Formation of Dual-Phase Nanocomposite Zr–Cu–N Coatings Based On Nanocrystalline Zrn and Glassy Zrcu;2024
5. Microstructure and Mechanical Properties of AlTiVCuN Coatings Prepared by Ion Source-Assisted Magnetron Sputtering;Nanomaterials;2023-12-15
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