Analysis on turning Ti-6Al-4V with different cooling methods
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Data
2012-12-01
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Resumo
The aim of this paper is to optimize the machining of Ti-6Al-4V alloy, by studying the chip formation, roughness and tool wear for different cooling conditions. The results were compared between cooling methods, minimal quantity of fluid (MQF) and flooding, and also without fluid for the tool H13A. The turning of Ti-6Al-4V has shown good results on roughness (0, 8μm) and tool life, which was 11% lower with MQF than with the flooding method. The tool wear causes variation of the shear angle, which promotes strength hardening of the chip. As a result, the machined surface could be damaged. The use of the cutting fluid helps to save the cutting edge and could reduce the strength hardening. Nevertheless, it could also facilitate the formation of built-up edge. The nucleation of alpha lamellar colonies can occur due to a combination of deformation rates and temperature, mainly when the flooding is used, but it's not conclusive. The lamellar colonies were also found with the MQF in some regions, however, this structure did not show hardness variation compared to equiaxial. For all this reasons, the machining parameters might be carefully chosen.
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Machining, Roughness, Titanium (Ti), Wear, Chip formations, Cooling conditions, Cooling methods, Deformation rates, Hardness variation, Machined surface, Machining parameters, Ti-6Al-4V alloy, Aluminum, Cooling, Cutting fluids, Floods, Hardening, Surface roughness, Titanium alloys, Tools, Turning, Wear of materials, Lamellar structures
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Inglês
Como citar
Ti 2011 - Proceedings of the 12th World Conference on Titanium, v. 3, p. 1957-1960.