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Evolution of the surface quality and tool wear in the high speed turning of Al2219/n-B <sub>4</sub> C/MoS <sub>2</sub> Nano metal matrix composites

N. G. Siddeshkumar, R. Suresh, C. Durga Prasad, L. Shivaram, N. H. Siddalingaswamy

2023International Journal of Cast Metals Research51 citationsDOI

Abstract

The mono metal matrix composite (MMC) (Al2219/2% n-B4C) and hybrid MMCs (Al2219 + 2% n-B4C +2% MoS2) were prepared through liquid metallurgical. An effort is made in the current study to investigate the effect of addition of molybdenum disulphide (2% MoS2) particles on tool wear. Uncoated carbide tool exhibits the highest flank wear observed during Al2219 + 2% n-B4C composite; moreover, it is due to higher cutting speed and occurrence of hard ceramics (n-B4C) particles in the nano MMCs. In the case of a hybrid composite, the presence of MoS2 particles avoids metal-to-metal contact and reduces the flank wear and during turning with coated carbide tool obtains a higher surface quality. The depth of cut is independent of the adhesion effect. The influenced zone (affected area) is higher with an increase in depth of cut; for 0.25, 0.5, 0.75 and 1.0 mm; however, the effect on surface roughness (Ra) is similar.

Topics & Concepts

Materials scienceComposite numberCarbideSurface roughnessHigh-speed steelComposite materialMetalCeramicNano-Matrix (chemical analysis)MetallurgyMetal matrix compositeAluminum Alloys Composites PropertiesAdvanced materials and compositesAdvanced machining processes and optimization
Evolution of the surface quality and tool wear in the high speed turning of Al2219/n-B <sub>4</sub> C/MoS <sub>2</sub> Nano metal matrix composites | Litcius