A. Alansari scite author profile

The machinability of materials is highly affected by their hardness, and it affects power consumption, cutting tool life as well as surface quality while machining the component. This work deals with machining of annealed AISI 4340 alloy steel using a coated carbide tool under a dry environment. The microhardness of annealed and non-annealed workpieces was compared and a significant reduction was found in the microhardness of annealed samples. Microstructure examination of the annealed sample revealed the formation of coarse pearlite which indicated a reduction of hardness and improved ductility. A commercially CVD multilayer (TiN/TiCN/Al2O3/ZrCN) coated cemented carbide cutting tool was employed for turning quenched and tempered structural AISI 4340 alloy steel by varying machining speed, rate of feed, and depth of cut to evaluate the surface quality, machining forces, flank wear, and chip morphology. According to the findings of experiments, the feed rate possesses a high impact on surface finish, followed by cutting speed. The prominent shape of the serrated saw tooth chip was noticed at a higher cutting speed. Machined surface finish and cutting forces during turning is a function of the wear profile of the coated carbide insert. This study proves that annealing is a low-cost and economical process to enhance the machinability of alloy steel.

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A comparative study of the mechanical behaviour of thermally oxidised commercially pure titanium and zirconium

Alansari

Sun

2017

Journal of the Mechanical Behavior of Biomedical Materials

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Surface finish effect on dry sliding wear behavior of thermally oxidized commercially pure zirconium

Alansari

Sun

2019

Transactions of Nonferrous Metals Society of China

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A. Alansari

Effect of oxidation time on the tribological behavior of thermally oxidized commercially pure zirconium under dry sliding conditions

Investigation on the Performance of Coated Carbide Tool during Dry Turning of AISI 4340 Alloy Steel

A comparative study of the mechanical behaviour of thermally oxidised commercially pure titanium and zirconium

Surface finish effect on dry sliding wear behavior of thermally oxidized commercially pure zirconium

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