Surface ion with Mo, Ti and Al for steel studies

Felser, C.; Kaskel, Stefan; Rubio, Ángel

doi:10.56053/6.4.477

ETN

2022

DOI: 10.56053/6.4.477

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Surface ion with Mo, Ti and Al for steel studies

C. Felser

Stefan Kaskel

Ángel Rubio

Abstract: Modification of metals by a surface treatment is one of the first problems of modern mate- rials science. The use of ion-plasma technologies for a modification of initial specimens, in particular, by ion implantation, for this purpose can be considered a promising solution. We study the microstructure, phase and elemental compositions, wetting forces, and electrical properties of steel with implanted ions of titanium, aluminum, and molybdenum. The results obtained by means of XRD, XPS, optical microscopy, and … Show more

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Tribological properties of DLC and GLC coating for automotive engine components application under lubrication

AL-SAMARAI,

AL-DOURI

2023

International Journal of Applied Mechanics and Engineering

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Modern automotive designs are needed to increase mechanical and thermal loads that have longer lifespans and are lighter. The power transmissions and motors often use low-friction hard coatings to prevent wear and reduce friction. The Cr-doped graphite-like carbon method is employed for evaluating coating friction and responses to chromium-doped graphite-like carbon (Cr-GLC) under lubrication. Cr-GLC coatings and chromium-doped diamond-like carbon (Cr-DLC) coatings are arranged using physical vapor deposition (PVD) and plasma-enhanced chemical vapor deposition (PECVD), respectively. The results have demonstrated in comparison to the dry friction coefficient, the friction coefficient under lubrication conditions has been reduced by 40%. Due to its excellent frictional physicochemical properties and compact microstructure, Cr-DLC has an optimum tribological resistance that is significantly higher than that of Cr-GLC. Viscosity, corrosivity, and coating microstructure are used to measure the impact of composite elements. The most ideal characteristics of the Cr-GLC coating are attributed to the non-reaction of additives in oil with friction surfaces.

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Tribological properties of DLC and GLC coating for automotive engine components application under lubrication

AL-SAMARAI,

AL-DOURI

2023

International Journal of Applied Mechanics and Engineering

View full text Add to dashboard Cite

show abstract

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Surface ion with Mo, Ti and Al for steel studies

Cited by 1 publication

References 12 publications

Tribological properties of DLC and GLC coating for automotive engine components application under lubrication

Tribological properties of DLC and GLC coating for automotive engine components application under lubrication

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