The Tribocorrosion Behaviour of Ti-6Al-4 V Alloy: The Role of Both Normal Force and Electrochemical Potential

Feyzi, Mohsen; Fallahnezhad, Khosro; Taylor, Mark A.; Hashemi, Reza

doi:10.1007/s11249-022-01624-0

Cited by 20 publications

(18 citation statements)

References 54 publications

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“…The basic data for such a modeling procedure can be obtained by fundamental tribocorrosion studies in the ball-on-disc configuration. The role of mechanical and electrochemical reactions in the total tribocorrosion loss changes with various parameters such as the imposed potential [ 48 , 49 ], normal force (and, thus, contact pressure) [ 50 , 51 ], sliding distance and its frequency [ 52 , 53 , 54 ], material couple in contact [ 55 , 56 , 57 , 58 ], and the solution type and its acidity [ 59 , 60 , 61 ]. However, the design parameters of head–neck junctions including taper angle mismatch, head size, trunnion geometry, material couples in contact, and the solution acidity, together with the presence of proteins, could affect the tribological characteristics of the system, the governing potential, and the degree of mechanical and electrochemical damage processes.…”

Section: Discussionmentioning

confidence: 99%

An Overview of the Stability and Fretting Corrosion of Microgrooved Necks in the Taper Junction of Hip Implants

et al. 2022

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Fretting corrosion at the head–neck interface of modular hip implants, scientifically termed trunnionosis/taperosis, may cause regional inflammation, metallosis, and adverse local tissue reactions. The severity of such a deleterious process depends on various design parameters. In this review, the influence of surface topography (in some cases, called microgrooves/ridges) on the overall performance of the microgrooved head–neck junctions is investigated. The methodologies together with the assumptions and simplifications, as well as the findings from both the experimental observations (retrieval and in vitro) and the numerical approaches used in previous studies, are presented and discussed. The performance of the microgrooved junctions is compared to those with a smooth surface finish in two main categories: stability and integrity; wear, corrosion, and material loss. Existing contradictions and disagreements among the reported results are reported and discussed in order to present a comprehensive picture of the microgrooved junctions. The current research needs and possible future research directions on the microgrooved junctions are also identified and presented.

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Section: Discussionmentioning

confidence: 99%

An Overview of the Stability and Fretting Corrosion of Microgrooved Necks in the Taper Junction of Hip Implants

et al. 2022

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“…Many studies have shown the important role played by the normal force on mechanical wear accelerated corrosion, and fluid lubrication in the tribocorrosion of passive metals. 16,17,27,31 Figure 3 shows the effect of normal force on the mechanical, chemical, and total wear rates of tungsten in tribocorrosion according to the model. Both of the mechanical and chemical wear rates increase at higher normal force, while it is interesting to see that the mechanical and chemical wear curves intersect at the normal force of approximately 60 N. Specifically, the effect of normal force on the chemical wear rate is less and less pronounced with the increase of the normal force while the effect of normal force on the mechanical wear rate keeps enhancing at higher normal force.…”

Section: Effect Of Normal Forcementioning

confidence: 99%

“…the clear dependence of anodic current on the applied potential which is consistent with the observations found in the tribocorrosion of other passive metals. 16,17,25 However, a reliable model to predict the influence of these parameters on the material removal of tungsten in tribocorrosion is not yet developed.…”

Section: Introductionmentioning

confidence: 99%

“…13,14 The tribocorrosion mechanism of the commonly used passive metals (e.g. stainless steels, CoCr alloys, Ti alloys, and Al alloys) has been intensively studied using tribo-electrochemical techniques, 15–18 and models have been developed to describe the material loss in the tribocorrosion degradation of passive metals. 19 However, only a few studies 13,20–22 reported the tribocorrosion behavior of tungsten in typical polishing solutions.…”

Section: Introductionmentioning

confidence: 99%

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Assessing the wear degradation of tungsten in acidic solutions using a lubricated tribocorrosion model

Cao

Zhao

Liang

et al. 2023

Proceedings of the Institution of Mechanical Engineers, Part J:

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The tribocorrosion property of tungsten plays a great role in the chemical mechanical polishing of tungsten plugs used in integrated circuits. This study applied a lubricated tribocorrosion model to tungsten, verified and calibrated the model using results from laboratory tribocorrosion experiments, and predicted the effect of the key parameters on the mechanical and chemical wear behavior of tungsten. The results showed that the model could be successfully applied to the tribocorrosion of tungsten considering that the prevailing wear mechanism and the electrochemical corrosion property of tungsten fulfills the model's basic concepts. The model was able to predict the influence of the material, mechanical, electrochemical and rheological parameters on the mechanical wear and chemical wear behavior of tungsten. The model could clearly distinguish the contribution of the mechanical wear and chemical wear to the total wear degradation of tungsten, which provides useful instructions on how to control the related parameters in order to obtain tailored removal rate and surface quality in tungsten's chemical mechanical polishing process.

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“…To further improve the estimation of the material loss during the operation of the hip implant, the tribocorrosion (fretting corrosion) phenomenon at the head-neck junction requires investigation. To achieve this, both the mechanical wear and electrochemical corrosion need to be modelled simultaneously [ 17 ]. Modelling tribocorrosion has been a major challenge for researchers, due to its complexity [ 18 ].…”

Section: Introductionmentioning

confidence: 99%

The Role of the Assembly Force in the Tribocorrosion Behaviour of Hip Implant Head-Neck Junctions: An Adaptive Finite Element Approach

et al. 2022

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The cyclic loading, in the corrosive medium of the human body, results in tribocorrosion at the interface of the head-neck taper junction of hip implants. The resulting metal ions and wear debris adversely affect the local tissues. The force applied by surgeons to assemble the junction has proven to play a major role in the mechanics of the taper junction which, in turn, can influence the tribocorrosion damage. Recently, finite element method has been used to predict the material loss at the head-neck interface. However, in most finite element studies, the contribution of electrochemical corrosion has been ignored. Therefore, a detailed study to investigate the influence of the assembly force on the tribocorrosive behaviour of the head-neck junction, which considers both the mechanical and chemical material removal, is of paramount interest. In this study, a finite-element-based algorithm was used to investigate the effect of assembly force on the tribocorrosion damage at the junction interface, for over four million cycles of simulated level gait. The patterns of the material removal in the modelling results were compared with the damage patterns observed in a group of retrieved modular hip implants. The results of this study showed that for different cases, chemical wear was in the range of 25–50% of the total material loss, after four million cycles. A minimum assembly force (4 kN for the studied cases) was needed to maintain the interlock in the junction. The computational model was able to predict the damage pattern at the retrieved head-neck interface.

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The Tribocorrosion Behaviour of Ti-6Al-4 V Alloy: The Role of Both Normal Force and Electrochemical Potential

Cited by 20 publications

References 54 publications

An Overview of the Stability and Fretting Corrosion of Microgrooved Necks in the Taper Junction of Hip Implants

An Overview of the Stability and Fretting Corrosion of Microgrooved Necks in the Taper Junction of Hip Implants

Assessing the wear degradation of tungsten in acidic solutions using a lubricated tribocorrosion model

The Role of the Assembly Force in the Tribocorrosion Behaviour of Hip Implant Head-Neck Junctions: An Adaptive Finite Element Approach

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