Journal ArticleDOI
Characteristics of cutting forces and chip formation in machining of titanium alloys
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TLDR
In this article, a cyclic force was produced during the formation of segmented chips and the force frequency was the same as the chip segmentation frequency, and the peak of the cyclic forces was 1.18 times that producing the continuous chip.Abstract:
Chip formation during dry turning of Ti6Al4V alloy has been examined in association with dynamic cutting force measurements under different cutting speeds, feed rates and depths of cut. Both continuous and segmented chip formation processes were observed in one cut under conditions of low cutting speed and large feed rate. The slipping angle in the segmented chip was 55°, which was higher than that in the continuous chip (38°). A cyclic force was produced during the formation of segmented chips and the force frequency was the same as the chip segmentation frequency. The peak of the cyclic force when producing segmented chips was 1.18 times that producing the continuous chip. The undeformed surface length in the segmented chip was found to increase linearly with the feed rate but was independent of cutting speed and depth of cut. The cyclic force frequency increased linearly with cutting speed and decreased inversely with feed rate. The cutting force increased with the feed rate and depth of cut at constant cutting speed due to the large volume of material being removed. The increase in cutting force with increasing cutting speed from 10 to 16 and 57 to 75 m/min was attributed to the strain rate hardening at low and high strain rates, respectively. The decrease in cutting force with increasing cutting speed outside these speed ranges was due to the thermal softening of the material. The amplitude variation of the high-frequency cyclic force associated with the segmented chip formation increased with increasing depth of cut and feed rate, and decreased with increasing cutting speed from 57 m/min except at the cutting speeds where harmonic vibration of the machine occurs.read more
Citations
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Journal ArticleDOI
Machining induced surface integrity in titanium and nickel alloys: A review
Durul Ulutan,Tuğrul Özel +1 more
TL;DR: In this paper, the authors provide an overview of machining induced surface integrity in titanium and nickel alloys and conclude that further modeling studies are needed to create predictive physics-based models that is in good agreement with reliable experiments.
Journal ArticleDOI
Tool wear characteristics in machining of nickel-based superalloys
TL;DR: In this article, the authors focused on the tool wear characteristics in the machining of nickel-based superalloys, and the state of the art in the fields of failure mechanism, monitoring and prediction, and control of tool wear are reviewed.
Journal ArticleDOI
Modified material constitutive models for serrated chip formation simulations and experimental validation in machining of titanium alloy Ti–6Al–4V
Mohammad Sima,Tuğrul Özel +1 more
TL;DR: In this article, the effect of material constitutive models and elastic-viscoplastic finite element formulation on serrated chip formation for modeling of machining Ti-6Al-4V titanium alloy is investigated.
Journal ArticleDOI
New observations on tool life, cutting forces and chip morphology in cryogenic machining Ti-6Al-4V
TL;DR: In this paper, the authors investigated the effectiveness of cryogenic coolant during turning of Ti-6Al-4V at a constant speed and material removal rate (125 m/min, 48.5 cm 3 /min) with different combinations of feed rate and depth of cut.
Journal ArticleDOI
Thermally enhanced machining of hard-to-machine materials: a review
TL;DR: In this paper, the up-to-date progress and benefits of thermally enhanced machining (with a focus on laser and plasma assistance) of ceramics, metals and metal matrix composites are summarized.
References
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An overview on the use of titanium in the aerospace industry
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Journal ArticleDOI
Titanium alloys and their machinability—a review
Emmanuel O. Ezugwu,Z. M. Wang +1 more
TL;DR: In this article, the main problems associated with the machining of titanium as well as tool wear and the mechanisms responsible for tool failure are discussed. But no equivalent development has been made for cutting titanium alloys due primarily to their peculiar characteristics.
Journal ArticleDOI
An overview of the machinability of aeroengine alloys
TL;DR: In this paper, the authors proposed a method for machining aeroengine alloys with improved hardness, such as cubic boron nitride (CBN) tools, for high speed continuous machining.