Effects of cavitation erosion-induced surface damage on the corrosion behaviour of TA31 Ti alloy

Li, Liang; Qiao, Yanxin; Zhang, Lianmin; Li, Chengtao; Zhong, Lei; Ma, Ruifang; Yang, Lanlan; Li, Jingyong; Zheng, Yuan

doi:10.1016/j.ultsonch.2023.106498

Cited by 32 publications

(5 citation statements)

References 46 publications

(52 reference statements)

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“…As a result, several findings are listed as: (1) the crack propagates along the slip bands in 0 carbon high entropy alloy, (2) the crack propagation prefers the zig-zag path in 0.5 carbon high entropy alloy, and (3) the carbide precipitates promote the crack nucleation and propagation along the grain boundaries, Figure 6. It shall be noted that the bi-model grain structure in 1.0 carbon high entropy alloy triggers the stress concentration at the grain boundaries, accompanied by the carbides-induced brittle fracture mechanism [28][29][30]. Therefore, there are more microcracks are detected in 1.0 carbon high entropy alloy in tensile and cupping fractures [31].…”

Section: Fracture Mechanism Discussionmentioning

confidence: 99%

The effect of carbon addition on the mechanical properties and fracture behaviors of cobalt‐chromium‐iron‐ manganese‐nickel high entropy alloy

Leng,

Yang,

et al. 2024

Materialwissenschaft Werkst

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The uniaxial tensile and cupping tests of cobalt‐chromium‐iron‐manganese‐nickel high entropy alloy were performed to investigate the effect of solid soluted carbon addition on the strengthening mechanism. The results revealed that at 0.5 at % carbon, the tensile strength, uniform elongation, and cupping strength of the sample were promoted. However, the brittleness fracture appeared by further increasing carbon to 1.0 at %, as caused by the carbides along grain boundary.

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Section: Fracture Mechanism Discussionmentioning

confidence: 99%

The effect of carbon addition on the mechanical properties and fracture behaviors of cobalt‐chromium‐iron‐ manganese‐nickel high entropy alloy

Leng,

Yang,

et al. 2024

Materialwissenschaft Werkst

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“…The application of Titanium porous material is as popular as Aluminum porous material. The remarkable properties of Titanium include high specific strength, corrosion resistance, as well as biocompatibility [84,85]. Thus, the application of Titanium porous material has potential application for implant applications.…”

Section: Titanium Porous Materialsmentioning

confidence: 99%

The development of porous metallic materials: a short review of fabrication, characteristics, and applications

Li-Yin,

Hao-Kun,

Xuan

et al. 2023

Phys. Scr.

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Metallic porous material plays an irreplaceable role in weight reduction, heat dissipation, catalyst, and other industrial applications. The customized, large production and environment-friendly fabrication of porous metallic material are becoming increasingly important. Moreover, the selection of matrix material, control of porosity, and foaming parameters are critical for determining the quality of porous metallic material and product. As the porous metallic material is often used as the structural and/or functional component, its mechanical, heat dissipation, corrosion resistance and other properties need to be evaluated before industrial application. This review provides an overview of the fabrication techniques, characteristics, and applications of porous metallic materials. Additionally, current industrial applications and potential future areas are discussed.

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“…The OCP of hard coatings under different brazing processes is shown in figure 5(b). During the first 600 s, the potential of all the coatings decreased rapidly owing to the continuous dissolution of the surface film because of Cl-erosion [24]. The changes in the OCP value over time was attributed to the formation of corrosion products.…”

Section: 2electrochemical Behaviour Analysis 321open Circuit Potentia...mentioning

confidence: 99%

Effects of different carbides content and brazing process on the electrochemical behaviour of vacuum brazed WC-10Ni+NiCrBSi coatings

Zhu,

Liu,

Yuan

et al. 2023

Phys. Scr.

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This study prepared a WC-10Ni/NiCrBSi composite coating on Q235 steel employing flexible coating cloth and vacuum brazing technologies. The surface hardness and corrosion resistance of the coating were characterised by the Vickers hardness, electrochemical, and micro-electrochemical tests. The results show that the corrosion resistance of the coating improved with the increase in cladding temperature. Moreover, with the increase in WC-10Ni content, the corrosion resistance of the coating decreased. Through transmission electron microscopy, scanning electron microscopy, and energy dispersive spectroscopy analysis, it is shown that there is galvanic corrosion in the micro-zone corrosion, where the WC particles are protected as cathodes, and the hardness of the coating is not affected by electrochemical behaviour. Thus, the hardness of the coating is not affected when it is applied in a corrosive environment.

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Effects of cavitation erosion-induced surface damage on the corrosion behaviour of TA31 Ti alloy

Cited by 32 publications

References 46 publications

The effect of carbon addition on the mechanical properties and fracture behaviors of cobalt‐chromium‐iron‐ manganese‐nickel high entropy alloy

The effect of carbon addition on the mechanical properties and fracture behaviors of cobalt‐chromium‐iron‐ manganese‐nickel high entropy alloy

The development of porous metallic materials: a short review of fabrication, characteristics, and applications

Effects of different carbides content and brazing process on the electrochemical behaviour of vacuum brazed WC-10Ni+NiCrBSi coatings

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