Orthopedic Implants: Coating with TiN

Gobbi, Sílvio José

doi:10.26717/bjstr.2019.16.002786

Cited by 11 publications

(8 citation statements)

References 22 publications

(29 reference statements)

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“…The higher gas flow of N 2 can increase the number of collisions between the particles. Another study [3] also reported that the formation of the Ti 2 N phase can be observed at low concentrations of nitrogen (23 at. %), whereas, at higher nitrogen concentration, the TiN phase can be expected.…”

Section: Resultsmentioning

confidence: 96%

Thin TiN coating on NiTi substrate through PVD method: Improvement of the wear resistance

Botshekanan,

Majidian,

Farvizi

2023

Tribology - Materials, Surfaces & Interfaces

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The preparation of a thin hard coating is the main challenge in the coating of NiTi articles. To achieve a thin coating of titanium nitride (TiN) on NiTi substrate, physical vapour deposition (PVD) was proposed in this study. Deposition of TiN coating was carried out at the nitrogen flows of 0.79 and 0.93 Pa. Phase composition, thickness, porosity, adhesion strength, hardness, and tribological properties of the TiN coatings were evaluated. The adhesion of the coating to the substrate was acceptable. Increasing of the gas flow resulted in a higher thickness (1 μm), lower porosity and higher adhesion strength. On contrary, the samples prepared with the lower gas flow showed higher hardness and elastic modulus. The coated samples showed smaller width of wear, lower wear rate and lower friction coefficient in comparison to the substrate. The delamination and adhesive wear mechanisms govern the wear process.

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Section: Resultsmentioning

confidence: 96%

Thin TiN coating on NiTi substrate through PVD method: Improvement of the wear resistance

Botshekanan,

Majidian,

Farvizi

2023

Tribology - Materials, Surfaces & Interfaces

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“…Titanium nitride (TiN) coatings were used as decorative coatings in earlier days. In the last decade, nitride coatings for orthopedic implants were also proposed to protect the implants against wear and tear and to act as a diffusion barrier layer preventing the toxic ion release from the implant metal surfaces to the human body fluids [177][178][179][180]. The physical properties of TiN coated substrates show high scratch resistance, hardness, and low frictional coefficients.…”

Section: Transition Metal Nitridesmentioning

confidence: 99%

Recent Advancements in Materials and Coatings for Biomedical Implants

Kirubaharan

Chandrasekar

Dasan

et al. 2022

Gels

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Metallic materials such as stainless steel (SS), titanium (Ti), magnesium (Mg) alloys, and cobalt-chromium (Co-Cr) alloys are widely used as biomaterials for implant applications. Metallic implants sometimes fail in surgeries due to inadequate biocompatibility, faster degradation rate (Mg-based alloys), inflammatory response, infections, inertness (SS, Ti, and Co-Cr alloys), lower corrosion resistance, elastic modulus mismatch, excessive wear, and shielding stress. Therefore, to address this problem, it is necessary to develop a method to improve the biofunctionalization of metallic implant surfaces by changing the materials’ surface and morphology without altering the mechanical properties of metallic implants. Among various methods, surface modification on metallic surfaces by applying coatings is an effective way to improve implant material performance. In this review, we discuss the recent developments in ceramics, polymers, and metallic materials used for implant applications. Their biocompatibility is also discussed. The recent trends in coatings for biomedical implants, applications, and their future directions were also discussed in detail.

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“…For biomedical applications, TiN was found to be well tolerated by tissue due to its inertness [176]. On orthopedic implants, nitride coatings protect the surface against wear and act as a diffusion barrier, preventing ion release from the metal to the body fluids [177]. Compared to other nitrides, TiN shows better biological properties for orthopedic applications [178].…”

Section: Nitridesmentioning

confidence: 99%

Advances in Multifunctional Bioactive Coatings for Metallic Bone Implants

Nikolova

Apostolova

2022

Materials

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To fix the bone in orthopedics, it is almost always necessary to use implants. Metals provide the needed physical and mechanical properties for load-bearing applications. Although widely used as biomedical materials for the replacement of hard tissue, metallic implants still confront challenges, among which the foremost is their low biocompatibility. Some of them also suffer from excessive wear, low corrosion resistance, infections and shielding stress. To address these issues, various coatings have been applied to enhance their in vitro and in vivo performance. When merged with the beneficial properties of various bio-ceramic or polymer coatings remarkable bioactive, osteogenic, antibacterial, or biodegradable composite implants can be created. In this review, bioactive and high-performance coatings for metallic bone implants are systematically reviewed and their biocompatibility is discussed. Updates in coating materials and formulations for metallic implants, as well as their production routes, have been provided. The ways of improving the bioactive coating performance by incorporating bioactive moieties such as growth factors, osteogenic factors, immunomodulatory factors, antibiotics, or other drugs that are locally released in a controlled manner have also been addressed.

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Orthopedic Implants: Coating with TiN

Cited by 11 publications

References 22 publications

Thin TiN coating on NiTi substrate through PVD method: Improvement of the wear resistance

Thin TiN coating on NiTi substrate through PVD method: Improvement of the wear resistance

Recent Advancements in Materials and Coatings for Biomedical Implants

Advances in Multifunctional Bioactive Coatings for Metallic Bone Implants

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