Wear performance of Ti-6Al-4 V titanium alloy through nano-doped lubricants

Titanium and its alloys are widely utilized in the biomedical sector, they still exhibit poor tribological properties and low wear resistance when employed against even weaker substances. The poor hardness, instability, high coefficient of friction, low load-carrying capacity, and insufficient resis...

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Published inArchives of Civil and Mechanical Engineering Vol. 23; no. 3; p. 147
Main Authors Etri, Hamza E. L., Singla, Anil Kumar, Özdemir, Mehmet Tayyip, Korkmaz, Mehmet Erdi, Demirsöz, Recep, Gupta, Munish Kumar, Krolczyk, J. B., Ross, Nimel Sworna
Format Journal Article
LanguageEnglish
Published London Springer London 15.05.2023
Springer Nature B.V
Subjects
Abrasive wear
Additives
Adhesive wear
Bearing strength
Boron
Boron nitride
Civil Engineering
Coefficient of friction
Engineering
Friction
Graphene
Heat conductivity
Heat resistance
Load carrying capacity
Lubricants
Lubricants & lubrication
Lubricating oils
Mechanical Engineering
Mechanical properties
Nanoparticles
Original Article
Shear strength
Structural Materials
Titanium alloys
Titanium base alloys
Tribology
Vanadium
Viscosity
Wear rate
Wear resistance
Working conditions
Biomedical material
Friction coefficient
Ti-6Al-4 V
Wear rate
Nanofluids
Online AccessGet full text
ISSN2083-3318
1644-9665
2083-3318
DOI10.1007/s43452-023-00685-9

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Abstract Titanium and its alloys are widely utilized in the biomedical sector, they still exhibit poor tribological properties and low wear resistance when employed against even weaker substances. The poor hardness, instability, high coefficient of friction, low load-carrying capacity, and insufficient resistance to not only abrasive but also adhesive wear are further disadvantages of titanium alloys. The focus of this investigation is on the tribological performance of Ti-6Al-4 V alloy in contact with WC carbide abrasive balls when subjected to nanodoped cooling and lubrication conditions. Tribological experiments were executed on Ti-6Al-4 V flat samples using a ball-on-flat tribometer in dry hybrid graphene/boron nitride combination nanoparticles (MQL, nano-3), nanographene with MQL (nano-1), and boron nitride with MQL (nano-2) conditions. After that, the most significant tribological characteristics were investigated, including volume loss, friction coefficient, wear rate, and micrographic structures. The outcomes also demonstrated that the hybrid nanoparticle situation experienced the least amount of volume loss.
AbstractList Titanium and its alloys are widely utilized in the biomedical sector, they still exhibit poor tribological properties and low wear resistance when employed against even weaker substances. The poor hardness, instability, high coefficient of friction, low load-carrying capacity, and insufficient resistance to not only abrasive but also adhesive wear are further disadvantages of titanium alloys. The focus of this investigation is on the tribological performance of Ti-6Al-4 V alloy in contact with WC carbide abrasive balls when subjected to nanodoped cooling and lubrication conditions. Tribological experiments were executed on Ti-6Al-4 V flat samples using a ball-on-flat tribometer in dry hybrid graphene/boron nitride combination nanoparticles (MQL, nano-3), nanographene with MQL (nano-1), and boron nitride with MQL (nano-2) conditions. After that, the most significant tribological characteristics were investigated, including volume loss, friction coefficient, wear rate, and micrographic structures. The outcomes also demonstrated that the hybrid nanoparticle situation experienced the least amount of volume loss.
Titanium and its alloys are widely utilized in the biomedical sector, they still exhibit poor tribological properties and low wear resistance when employed against even weaker substances. The poor hardness, instability, high coefficient of friction, low load-carrying capacity, and insufficient resistance to not only abrasive but also adhesive wear are further disadvantages of titanium alloys. The focus of this investigation is on the tribological performance of Ti-6Al-4 V alloy in contact with WC carbide abrasive balls when subjected to nanodoped cooling and lubrication conditions. Tribological experiments were executed on Ti-6Al-4 V flat samples using a ball-on-flat tribometer in dry hybrid graphene/boron nitride combination nanoparticles (MQL, nano-3), nanographene with MQL (nano-1), and boron nitride with MQL (nano-2) conditions. After that, the most significant tribological characteristics were investigated, including volume loss, friction coefficient, wear rate, and micrographic structures. The outcomes also demonstrated that the hybrid nanoparticle situation experienced the least amount of volume loss.
ArticleNumber 147
Author Etri, Hamza E. L.
Demirsöz, Recep
Singla, Anil Kumar
Özdemir, Mehmet Tayyip
Ross, Nimel Sworna
Krolczyk, J. B.
Korkmaz, Mehmet Erdi
Gupta, Munish Kumar
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Friction coefficient
Ti-6Al-4 V
Wear rate
Nanofluids
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Snippet Titanium and its alloys are widely utilized in the biomedical sector, they still exhibit poor tribological properties and low wear resistance when employed...
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SubjectTerms Abrasive wear
Additives
Adhesive wear
Bearing strength
Boron
Boron nitride
Civil Engineering
Coefficient of friction
Engineering
Friction
Graphene
Heat conductivity
Heat resistance
Load carrying capacity
Lubricants
Lubricants & lubrication
Lubricating oils
Mechanical Engineering
Mechanical properties
Nanoparticles
Original Article
Shear strength
Structural Materials
Titanium alloys
Titanium base alloys
Tribology
Vanadium
Viscosity
Wear rate
Wear resistance
Working conditions
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Title Wear performance of Ti-6Al-4 V titanium alloy through nano-doped lubricants
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