Characteristics of the tribological properties of oxide layers obtained via thermal oxidation on titanium Grade 2

Aniołek, Krzysztof; Kupka, M.; Barylski, Adrian

doi:10.1177/1350650118769116

Cited by 16 publications

(6 citation statements)

References 31 publications

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“…Thus, the presence of a consistent oxide layer over the surface of the substrate after laser irradiation can be observed. The same surface morphology phenomenon due to the thermal oxidation process was also observed in previous studies related to the thermal oxidation of pure titanium and Ti-6Al-4V alloy [35]- [37]. According to previous reports, thermally oxidized Ti-6Al-4V shows better corrosion resistance, higher friction coe cient, mechanical properties, and tribological properties.…”

Section: Effect Of Laser Irradiation On Surface Morphologysupporting

confidence: 83%

Influence of laser beam process parameters on the bending ability of Ti-6Al-4V titanium alloy sheets

Naqvi,

Haidry,

Xie

et al. 2023

Preprint

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Laser bending is a flexible technique that requires no external tools for the bending and shaping of metallic components. It utilizes a laser heat source to achieve the desired shapes due to thermally induced stresses inside the metallic sheets. Examining the impact of process variables on the bending angle deformation is very important to achieve the required shapes. This work presents, the numerical and experimental analysis of the bending behaviors of Ti-6Al-4V titanium alloy sheets under the constant line energy concept. The numerical simulations for the laser bending method have been developed through Abaqus to examine the transient temperature fields, thermal stress, and strain characteristics. Furthermore, the experimental analysis has been compared with the numerical simulation analysis to observe the consequences of variation in process parameters such as laser powers and scanning speeds on the bending capability. In addition, the influence of process parameters on the surface morphology of the laser-scanned Ti-6Al-4V alloy specimens has been observed by scanning electron microscope (SEM). The findings show that the bending angle extent is directly related to the simultaneous increment in laser power and scanning velocity. An increase in line energy value shows a significant enhancement in bending angle. The laser-induced heat flux, beam interaction time, and temperature gradient at high laser powers and high scanning speeds are significant factors that are responsible for the extent of bending of sheets. Moreover, melting and thermal oxidation have been observed during the (SEM) analysis at high laser power. The numerical simulation and experimental outcomes are helpful for the selection of optimum process conditions in the laser bending method of Ti-6Al-4V alloy sheets.

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Section: Effect Of Laser Irradiation On Surface Morphologysupporting

confidence: 83%

Influence of laser beam process parameters on the bending ability of Ti-6Al-4V titanium alloy sheets

Naqvi,

Haidry,

Xie

et al. 2023

Preprint

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“…The CoF started low for the TO surface, and it increased steadily with the increment of the tribotest till 0.45 in the end which might be attributed to the thin oxide layer (1−2 μm) worn through at about 700 cycles. 17,24 For the SOD sample, the CoF was higher in the first part of the test which might be caused by the remaining powders on the surface, and it slightly reduced after half of the test cycles, and the change in the CoF was in a narrow range. The sample SOD + TO had a low CoF in the beginning and increased slightly but remained low and relatively stable under 0.2 in the whole process.…”

Section: ■ Materials and Methodsmentioning

confidence: 99%

A Novel Treatment to Selectively Harden Ti6Al4V Surfaces

Wei

Zhang

2023

ACS Omega

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Various surface treatments have been developed on titanium and its alloy to improve their tribological properties. However, for some components, only specific surfaces need to be hardened rather than the whole surfaces. This study develops a duplex heat treatment including selective surface hardening by prepainting TiO2 powders and thermal oxidation. It is found that the TiO2 powder layer can be used as an oxygen reservoir for boosting diffusion treatment at temperatures of 800–900 °C. The abundance of oxygen provides high potential and accelerates the diffusion process, deeply hardening the surface case. Moreover, the duplex treatment is optimal for selectively hardened surfaces with high load-bearing capacity and much improved tribological properties. Prepainting the surfaces that need to be hardened is easy to operate and has good potential to be applied in industry.

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“…• Distance radius: 2 mm • Workload: 1 N • Linear speed: 0.1 cm/s • Humidity: 40 ± 2% • Temperature: 26 ± 2 °C A 6 mm diameter alumina ball was used [16].…”

Section: Methodsmentioning

confidence: 99%

Effect of the incorporation of carbon in the structure of TiO2 anodized with HCl on the mechanical and tribological properties

et al. 2021

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With the use of the sputtering technique, carbon incorporation was carried out on TiO 2 anodized with HCl. FE-SEM study revealed the formation of tubes and/or fibers nanostructures on the surface of the acquired samples. It was possible to identify the presence of carbon by vibrational modes and EDS analysis. The nanoindentation test demonstrated how the carbonincorporated TiO 2 samples improved the nanohardness and elastic modulus compared to titanium and TiO 2 anodized. The presence of carbon was able to reinforce the bond of the TiO 2 layer with the substrate, which improved adhesion and abrasive behavior, and in turn, reduced the friction coefficient up to 89% compared to titanium.

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Characteristics of the tribological properties of oxide layers obtained via thermal oxidation on titanium Grade 2

Cited by 16 publications

References 31 publications

Influence of laser beam process parameters on the bending ability of Ti-6Al-4V titanium alloy sheets

Influence of laser beam process parameters on the bending ability of Ti-6Al-4V titanium alloy sheets

A Novel Treatment to Selectively Harden Ti6Al4V Surfaces

Effect of the incorporation of carbon in the structure of TiO2 anodized with HCl on the mechanical and tribological properties

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