High-pressure water-jet-assisted machining of Ti555-3 titanium alloy: investigation of tool wear mechanisms

Ayed, Yessine; Germain, Guénaël

doi:10.1007/s00170-018-1661-2

Cited by 22 publications

(2 citation statements)

References 35 publications

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“…At a lower pressure of 100bar, cutting forces was reduced by 23% [63]. In another study, Ayed and Geriman [64] reported that the tool life increased by a factor of 8 during HPWJAM of Ti555-3. The cutting speed of up to 75 mm/min gave good machinability but above this speed, the HPWJM was ineffective.…”

Section: Lubricationmentioning

confidence: 99%

An overview of conventional and non-conventional techniques for machining of titanium alloys

et al. 2020

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Machining is one of the major contributors to the high cost of titanium-based components. This is as a result of severe tool wear and high volume of waste generated from the workpiece. Research efforts seeking to reduce the cost of titanium alloys have explored the possibility of either eliminating machining as a processing step or optimising parameters for machining titanium alloys. Since the former is still at the infant stage, this article provides a review on the common machining techniques that were used for processing titanium-based components. These techniques are classified into two major categories based on the type of contact between the titanium workpiece and the tool. The two categories were dubbed conventional and non-conventional machining techniques. Most of the parameters that are associated with these techniques and their corresponding machinability indicators were presented. The common machinability indicators that are covered in this review include surface roughness, cutting forces, tool wear rate, chip formation and material removal rate. However, surface roughness, tool wear rate and metal removal rate were emphasised. The critical or optimum combination of parameters for achieving improved machinability was also highlighted. Some recommendations on future research directions are made.

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Section: Lubricationmentioning

confidence: 99%

An overview of conventional and non-conventional techniques for machining of titanium alloys

et al. 2020

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“…To solve this problem, scholars at home and abroad have explored how to transform the traditional rock-breaking method and put forward a variety of auxiliary rock-breaking methods. Among them, the highpressure water jet method [8][9] , laser method [10][11] , and highpressure liquid nitrogen jet method [12][13] can reduce the force of disc cutter rock-breaking and improve the efficiency of rockbreaking when assisting TBM disc cutter rock-breaking, but at the same time, there are defects of the technology itself and the limitations of the environment. The high-pressure water jetting method requires high reliability of hydraulic components, and is easy to cause water accumulation, affecting the construction [14] ; The laser method has a small damage range and depth to the rock, and the auxiliary effect is most obvious only when breaking the surface of the rock [15] ; the high-pressure liquid nitrogen jet method has a significant effect on the cold impact fracturing of high-temperature rocks in thermal reservoirs, but the effect is poor in other applications, especially in waterbearing formations [16] .…”

Section: Introductionmentioning

confidence: 99%

Study on Microwave-assisted TBM Double-edged Cutter Rock-breaking Efficiency and its Positional Relationship

Wen,

Du,

Kong

et al. 2024

Eksploatacja i Niezawodność – Maintenance and Reliability

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In this study, based on a microwave test, the discrete element program (PFC) is used to establish a microwave-assisted disc cutter rock-breaking model and explore the influence law of the positional relationship between microwave radiation and disc cutter penetration on rock-breaking efficiency, and the results show that: The improvement of the positional relationship has a significant effect on improving the rock-breaking efficiency, and the double-edged cutter reaches and minimum rock-breaking specific energy when breaking the rock in the center position with a waveguide spacing of 90 mm and in the inner and outer positions with a waveguide spacing of 150 mm; When the waveguide spacing is 150mm, the double-edged cutter with cutter spacing of 110mm, 130mm, and 190mm have their advantages in rock-breaking efficiency and economic benefits, which should be selected according to the actual needs of the project. The follow-up research should also fully consider the rock type, microwave parameters, cutter profile, engineering environment, and other factors for in-depth investigation.

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Media-Assisted Machining Processes

Grzesik

Ruszaj

2021

Springer Series in Advanced Manufacturing

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High-pressure water-jet-assisted machining of Ti555-3 titanium alloy: investigation of tool wear mechanisms

Cited by 22 publications

References 35 publications

An overview of conventional and non-conventional techniques for machining of titanium alloys

An overview of conventional and non-conventional techniques for machining of titanium alloys

Study on Microwave-assisted TBM Double-edged Cutter Rock-breaking Efficiency and its Positional Relationship

Media-Assisted Machining Processes

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