Precision Hard Turning of Ti6Al4V Using Polycrystalline Diamond Inserts: Surface Quality, Cutting Temperature and Productivity in Conventional and High-Speed Machining

Overview

Journal Materials (Basel)

Publisher MDPI

Date 2020 Dec 16

PMID 33322699

Citations 4

Authors

Elshaimaa Abdelnasser

Azza Barakat

Samar Elsanabary

Ahmed Nassef

Ahmed Elkaseer

Affiliations

Soon will be listed here.

Abstract

This article presents the results of an experimental investigation into the machinability of Ti6Al4V alloy during hard turning, including both conventional and high-speed machining, using polycrystalline diamond (PCD) inserts. A central composite design of experiment procedure was followed to examine the effects of variable process parameters; feed rate, cutting speed and depth of cut (each at five levels) and their interaction effects on surface roughness and cutting temperature as process responses. The results revealed that cutting temperature increased with increasing cutting speed and decreasing feed rate in both conventional and high-speed machining. It was found that high-speed machining showed an average increase in cutting temperature of 65% compared with conventional machining. Nevertheless, high-speed machining showed better performance in terms of lower surface roughness despite using higher feed rates compared to conventional machining. High-speed machining of Ti6Al4V showed an improvement in surface roughness of 11% compared with conventional machining, with a 207% increase in metal removal rate (MRR) which offered the opportunity to increase productivity. Finally, an inverse relationship was verified between generated cutting temperature and surface roughness. This was attributed mainly to the high cutting temperature generated, softening, and decreasing strength of the material in the vicinity of the cutting zone which in turn enabled smoother machining and reduced surface roughness.

Citing Articles

Optimizing Cutting Parameters for Enhanced Control of Temperature, Cutting Forces, and Energy Consumption in Dry Turning of Ti6Al4V Alloy.

Herrera Fernandez M, Martin-Bejar S, Sevilla Hurtado L, Trujillo Vilches F Materials (Basel). 2025; 18(5).

PMID: 40077166 PMC: 11901140. DOI: 10.3390/ma18050942.

Cyber-Physical Systems for High-Performance Machining of Difficult to Cut Materials in I5.0 Era-A Review.

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PMID: 38610535 PMC: 11014020. DOI: 10.3390/s24072324.

Influence of Technological Parameters on Chip Formation and Chip Control in Precision Hard Turning of Ti-6Al-4V.

Abdelnasser E, El-Sanabary S, Nassef A, Barakat A, Elkaseer A Micromachines (Basel). 2023; 14(10).

PMID: 37893410 PMC: 10609175. DOI: 10.3390/mi14101973.

Parametric Study and Optimization of End-Milling Operation of AISI 1522H Steel Using Definitive Screening Design and Multi-Criteria Decision-Making Approach.

Abas M, Alkahtani M, Khalid Q, Hussain G, Abidi M, Buhl J Materials (Basel). 2022; 15(12).

PMID: 35744144 PMC: 9229928. DOI: 10.3390/ma15124086.

Fundamental Investigation into Tool Wear and Surface Quality in High-Speed Machining of Ti6Al4V Alloy.

Abbas A, Al Bahkali E, Alqahtani S, Abdelnasser E, Naeim N, Elkaseer A Materials (Basel). 2021; 14(23).

PMID: 34885282 PMC: 8658211. DOI: 10.3390/ma14237128.

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