3.8 Article

Comparison of conventional drilling and helical milling for hole making in Ti6Al4V titanium alloy under sustainable dry condition

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MANUFACTURING REVIEW
卷 8, 期 -, 页码 -

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EDP SCIENCES S A
DOI: 10.1051/mfreview/2021010

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Ti6Al4V titanium alloy; helical milling; drilling; force; surface roughness; temperature

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Helical milling in Ti6Al4V titanium alloy drilling shows advantages in lower thrust force and superior surface finish under lower axial feed conditions. Additionally, helical milling can form workpiece surfaces without thermal damage under dry machining conditions and significantly reduce burr size.
Hole drilling in Ti6Al4V titanium alloy is challenging due to its poor machinability resulting from high-temperature strength and low thermal conductivity. Therefore, an evaluation of the helical milling process is carried out by comparing the thrust force, surface roughness, machining temperature, burr size, and hole diametrical accuracy with the conventional drilling process. The results indicate the advantage of the helical milling in terms of the lower magnitude of thrust force. The holes generated using helical milling displayed a superior surface finish at lower axial feed conditions, while higher axial feed conditions result in chatter due to the tool deformation. Also, the absence of a heat-affected zone (HAZ) under dry helical milling conditions indicates the work surface formation without thermal damage. Besides, a significant reduction in the size of the burrs is noted during helical milling due to lower machining temperature. Analysis of the hole diameter reinforces the capability of the helical milling process for processing H7 quality holes. Consequently, helical milling can be considered a sustainable alternative to mechanical drilling, considering its ability to machine quality holes under dry machining conditions.

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