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Mechanics of milling 48-2-2 gamma titanium aluminide

Mechanics of milling 48-2-2 gamma titanium aluminide
Mechanics of milling 48-2-2 gamma titanium aluminide

Accurate and fast prediction of cutting forces is important in high-performance cutting in the aerospace industry. Gamma titanium aluminide (γ-TiAl) is a material of choice for aerospace and automotive applications due to its superior thermo-mechanical properties. Nevertheless, it is a difficult to machine material. This article presents the prediction of cutting forces for Ti-48Al-2Cr-2Nb (48-2-2) γ-TiAl in milling process using orthogonal to oblique transformation technique. The novelty of this paper lies in reporting the orthogonal database of 48-2-2 γ-TiAl. Fundamental cutting parameters such as shear stress, friction angle and shear angle are calculated based on experimental measurements. Friction coefficients are identified for two different coating conditions which are AlTiN, and AlCrN on carbide tools. Predicted results are validated with the experimental cutting forces during end milling and ball-end milling operations for different cutting conditions. The simulated results showed good agreement with the experimental results, which confirms the validity of the force model.

Coating, Gamma titanium aluminide, Milling
1755-5817
131-139
Hussain, Abbas
b65a4053-68d3-4a42-af98-05c40bfe9331
Layegh, S. Ehsan
8400989f-2674-40bd-b624-5acd2e2b8f2b
Lazoglu, Ismail
dde74a90-ccd3-452a-a4cf-6dbc8841caf3
Arrazola, Pedro J.
3015689f-0250-4407-aa5e-db24d7f29a00
Lazcano, Xabier
2c28f5f5-99b4-4d65-b82e-06158309d9f1
Aristimuño, Patxi X.
6d265e70-cc07-4da0-a7c2-4a07323360cd
Subasi, Omer
2842eb31-4759-4b33-a197-97066e1b42f5
Yigit, I. Enes
5088d781-13b9-42c7-a85e-7ae9f23a9917
Öztürk, Çağlar
70bbd3bd-fc56-48e8-8b5e-00d5270c1526
Yavaş, Çağlar
d957c1b9-021c-4ec4-8d67-51c865971a9e
Hussain, Abbas
b65a4053-68d3-4a42-af98-05c40bfe9331
Layegh, S. Ehsan
8400989f-2674-40bd-b624-5acd2e2b8f2b
Lazoglu, Ismail
dde74a90-ccd3-452a-a4cf-6dbc8841caf3
Arrazola, Pedro J.
3015689f-0250-4407-aa5e-db24d7f29a00
Lazcano, Xabier
2c28f5f5-99b4-4d65-b82e-06158309d9f1
Aristimuño, Patxi X.
6d265e70-cc07-4da0-a7c2-4a07323360cd
Subasi, Omer
2842eb31-4759-4b33-a197-97066e1b42f5
Yigit, I. Enes
5088d781-13b9-42c7-a85e-7ae9f23a9917
Öztürk, Çağlar
70bbd3bd-fc56-48e8-8b5e-00d5270c1526
Yavaş, Çağlar
d957c1b9-021c-4ec4-8d67-51c865971a9e

Hussain, Abbas, Layegh, S. Ehsan, Lazoglu, Ismail, Arrazola, Pedro J., Lazcano, Xabier, Aristimuño, Patxi X., Subasi, Omer, Yigit, I. Enes, Öztürk, Çağlar and Yavaş, Çağlar (2020) Mechanics of milling 48-2-2 gamma titanium aluminide. CIRP Journal of Manufacturing Science and Technology, 30, 131-139. (doi:10.1016/j.cirpj.2020.05.001).

Record type: Article

Abstract

Accurate and fast prediction of cutting forces is important in high-performance cutting in the aerospace industry. Gamma titanium aluminide (γ-TiAl) is a material of choice for aerospace and automotive applications due to its superior thermo-mechanical properties. Nevertheless, it is a difficult to machine material. This article presents the prediction of cutting forces for Ti-48Al-2Cr-2Nb (48-2-2) γ-TiAl in milling process using orthogonal to oblique transformation technique. The novelty of this paper lies in reporting the orthogonal database of 48-2-2 γ-TiAl. Fundamental cutting parameters such as shear stress, friction angle and shear angle are calculated based on experimental measurements. Friction coefficients are identified for two different coating conditions which are AlTiN, and AlCrN on carbide tools. Predicted results are validated with the experimental cutting forces during end milling and ball-end milling operations for different cutting conditions. The simulated results showed good agreement with the experimental results, which confirms the validity of the force model.

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More information

e-pub ahead of print date: 23 June 2020
Published date: 1 August 2020
Additional Information: Publisher Copyright: © 2020 CIRP
Keywords: Coating, Gamma titanium aluminide, Milling

Identifiers

Local EPrints ID: 490730
URI: http://eprints.soton.ac.uk/id/eprint/490730
DOI: doi:10.1016/j.cirpj.2020.05.001
ISSN: 1755-5817
PURE UUID: 012a2a18-79f0-4fc1-8ce4-7e78e4014c1a
ORCID for Çağlar Öztürk: ORCID iD orcid.org/0000-0002-3688-0148

Catalogue record

Date deposited: 04 Jun 2024 17:00
Last modified: 05 Jun 2024 02:09

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Contributors

Author: Abbas Hussain
Author: S. Ehsan Layegh
Author: Ismail Lazoglu
Author: Pedro J. Arrazola
Author: Xabier Lazcano
Author: Patxi X. Aristimuño
Author: Omer Subasi
Author: I. Enes Yigit
Author: Çağlar Öztürk ORCID iD
Author: Çağlar Yavaş

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