Machining Performance Of Titanium Carbide (TiC) As Tool Coating.
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This project investigates tool wear of carbide cutting tools when machining aluminium alloy on wet and dry condition at different cutting speed.. In this research, the evaluation of
The environments: conventional coolant supply as illustrated properties of coolant, workpiece material and cutting tool in Figure 1(a) and High Pressure Waterjet Assisted used in
An extended theoretical model of reactive sputtering of TiAlN coating has been developed to study the effect of substrate bias (V b) and nitrogen CN2) flo w rate on
its dimensional accuracy, and consequently, the economics of cutting operations. Wear is a gradual process, much like the wear of the tip of an ordinary pencil. The rate of flank
Crater wear on the rake face when machining at cutting speed of 210 m/min, feed rate of 0.4 mm/tooth and depth of cut of 0.3 mm 4.0 CONCLUSIONS The effect of cutting speed is almost
ANOVA analysis in Table 5 shows that the effect of cutting speed is almost negligible as compared to feed rate and depth of cut of 30% and 70% respectively on the tool life..
Even at a mass loading of 8.7 mg/cm2, LFP electrode showed a capacity of 122 mAh/g at 1.2 C rate, which matches with the literature reports employing traditional Al current collectors
From the Figure 8, it was observed that, surface roughness values of EN 24 hardened steel samples machined with alumina tool insert was a bit high when compared with surface roughness
