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Published in: The International Journal of Advanced Manufacturing Technology 2/2024

13-11-2023 | ORIGINAL ARTICLE

Effect of cutting tool geometry on hole quality in orbital drilling

Authors: Pierre-André Rey, Johanna Senatore, Yann Landon

Published in: The International Journal of Advanced Manufacturing Technology | Issue 2/2024

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Abstract

The orbital drilling process is a very complex machining operation. Due to the helical path of the tool in the material and the tool geometry that can be very complex, the geometry of the chip is very variable along the cutting edge and during a revolution of the tool. This complexity leads to variable cutting forces during drilling and makes it difficult to model and estimate for different tool geometries.
The aim of this study is, therefore, to use a modelling of the orbital drilling process in order to study the influence of the geometry of the tool and the cutting conditions on the cutting forces. The final objective is to identify their impact on the quality of the drilled hole and, thus, to control the final quality.
First, the chip geometry is modelled from the cutting parameters and the macro-geometry of the tool. It needs to determine the tooth trajectory into the material for each point of the cutting edge. Cutting force models, based on the instantaneous chip thickness, are then implemented. An experimental study validates the modelling by cutting force measurements carried out during orbital drilling tests. From this modelling, it is now possible to study the influence of the geometry of the cutting tool on the forces in order to control the loading on the tool and therefore the final quality of the drilled hole.

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Literature
1.
go back to reference Tönshoff H, Spintig W (1994) Machining of holes: developments in drilling technology. Ann CIRP 43:551–561CrossRef Tönshoff H, Spintig W (1994) Machining of holes: developments in drilling technology. Ann CIRP 43:551–561CrossRef
2.
go back to reference Lindqvist R, Eriksson I, Wolf M (2001) Orbital drilling of sandwich constructions for space applications. SAE transactions 179–186 Lindqvist R, Eriksson I, Wolf M (2001) Orbital drilling of sandwich constructions for space applications. SAE transactions 179–186
3.
go back to reference Brinksmeier E, Fangmann S, Rentsch R (2011) Drilling of composites and resulting surface integrity. CIRP Ann Manuf Technol 60:57–60CrossRef Brinksmeier E, Fangmann S, Rentsch R (2011) Drilling of composites and resulting surface integrity. CIRP Ann Manuf Technol 60:57–60CrossRef
4.
go back to reference Denkena B, Boehnke D, Dege J (2008) Helical milling of CFRP–titanium layer compounds. CIRP J Manuf Sci Technol 1(2):64–69CrossRef Denkena B, Boehnke D, Dege J (2008) Helical milling of CFRP–titanium layer compounds. CIRP J Manuf Sci Technol 1(2):64–69CrossRef
5.
go back to reference Ladonne M, Cherif M, Landon Y, K'Nevez J-Y, Cahuc O, De Castelabajac C (2015) Modelling the vibration assisted drilling process: identification of influential phenomena. Int J Adv Manuf Technol 81:1657–1666CrossRef Ladonne M, Cherif M, Landon Y, K'Nevez J-Y, Cahuc O, De Castelabajac C (2015) Modelling the vibration assisted drilling process: identification of influential phenomena. Int J Adv Manuf Technol 81:1657–1666CrossRef
6.
go back to reference Le Dref J, Landon Y, Dessein G, Espinosa C (2016) Modelling kinematics and cutting forces in vibration assisted drilling. Mechanics & Industry 17(3):301 Le Dref J, Landon Y, Dessein G, Espinosa C (2016) Modelling kinematics and cutting forces in vibration assisted drilling. Mechanics & Industry 17(3):301
7.
go back to reference Araujo AC, Landon Y, Lagarrigue P (2021) Smart drilling for Aerospace Industry: state of art in research and education. Procedia CIRP 99:387–391 Araujo AC, Landon Y, Lagarrigue P (2021) Smart drilling for Aerospace Industry: state of art in research and education. Procedia CIRP 99:387–391
8.
go back to reference Iyer R, Koshy P, Ng E (2007) Helical milling: an enabling technology for hard machining precision holes in AISI D2 tool steel. Int J Mach Tools Manuf 47:205–210CrossRef Iyer R, Koshy P, Ng E (2007) Helical milling: an enabling technology for hard machining precision holes in AISI D2 tool steel. Int J Mach Tools Manuf 47:205–210CrossRef
9.
go back to reference Brinksmeier E, Fangmann S (2009) Burr and cap formation by orbital drilling of aluminum. In: Proceedings of the CIRP. International Conference on Burrs, Kaiserslautern, Germany, pp 31–45 Brinksmeier E, Fangmann S (2009) Burr and cap formation by orbital drilling of aluminum. In: Proceedings of the CIRP. International Conference on Burrs, Kaiserslautern, Germany, pp 31–45
10.
go back to reference Sadek A, Meshreki M, Attia M (2012) Characterization and optimization of orbital drilling of woven carbon fiber reinforced expoxy laminates. CIRP Ann Manuf Technol 61:123–126CrossRef Sadek A, Meshreki M, Attia M (2012) Characterization and optimization of orbital drilling of woven carbon fiber reinforced expoxy laminates. CIRP Ann Manuf Technol 61:123–126CrossRef
11.
go back to reference Ezugwu EO, Wang ZM (1997) Titanium alloys and their machinability a review. J Mater Process Technol 68(3):262–274CrossRef Ezugwu EO, Wang ZM (1997) Titanium alloys and their machinability a review. J Mater Process Technol 68(3):262–274CrossRef
13.
go back to reference Sun D, Lemoine P, Keys D, Doyle P, Malinov S, Zhao Q, Qin X, Jin Y (2018) Hole-making processes and their impacts on the microstructure and fatigue response of aircraft alloys. Int J Adv Manuf Technol 94:1719–1726CrossRef Sun D, Lemoine P, Keys D, Doyle P, Malinov S, Zhao Q, Qin X, Jin Y (2018) Hole-making processes and their impacts on the microstructure and fatigue response of aircraft alloys. Int J Adv Manuf Technol 94:1719–1726CrossRef
14.
go back to reference Pereira RBD, Brandão LC, de Paiva AP, Ferreira JR, Davim JP (2017) A review of helical milling process. Int J Mach Tool Manu 120:27–48CrossRef Pereira RBD, Brandão LC, de Paiva AP, Ferreira JR, Davim JP (2017) A review of helical milling process. Int J Mach Tool Manu 120:27–48CrossRef
15.
go back to reference Ozturk OM, Kilic ZM, Altintas Y (2018) Mechanics and dynamics of orbital drilling operations. Int J Mach Tool Manu 129:37–47CrossRef Ozturk OM, Kilic ZM, Altintas Y (2018) Mechanics and dynamics of orbital drilling operations. Int J Mach Tool Manu 129:37–47CrossRef
16.
go back to reference Brinksmeier E, Fangmann S, Meyer I (2008) Orbital drilling kinematics. Prod Eng 2(3):277–283CrossRef Brinksmeier E, Fangmann S, Meyer I (2008) Orbital drilling kinematics. Prod Eng 2(3):277–283CrossRef
17.
go back to reference Rey PA, LeDref J, Senatore J, Landon Y (2016) Modelling of cutting forces in orbital drilling of titanium alloy Ti-6Al-4V. Int J Mach Tools Manuf 106:75–88CrossRef Rey PA, LeDref J, Senatore J, Landon Y (2016) Modelling of cutting forces in orbital drilling of titanium alloy Ti-6Al-4V. Int J Mach Tools Manuf 106:75–88CrossRef
18.
go back to reference Zhou L, Dong H, Ke Y, Chen G (2018) Modeling of non-linear cutting forces for dry orbital drilling process based on undeformed chip geometry. Int J Adv Manuf Technol 94:203–216CrossRef Zhou L, Dong H, Ke Y, Chen G (2018) Modeling of non-linear cutting forces for dry orbital drilling process based on undeformed chip geometry. Int J Adv Manuf Technol 94:203–216CrossRef
19.
go back to reference Zhou L, Dong H, Chen YKG (2017) Analysis of the chip-splitting performance of a dedicated cutting tool in dry orbital drilling process. Int J Adv Manuf Technol 90:1809–1823CrossRef Zhou L, Dong H, Chen YKG (2017) Analysis of the chip-splitting performance of a dedicated cutting tool in dry orbital drilling process. Int J Adv Manuf Technol 90:1809–1823CrossRef
20.
21.
go back to reference Altintas Y, Kilic Z (2013) Generalized dynamic model of metal cutting operations. Ann CIRP - Manuf Technol 62(1):47–50CrossRef Altintas Y, Kilic Z (2013) Generalized dynamic model of metal cutting operations. Ann CIRP - Manuf Technol 62(1):47–50CrossRef
22.
go back to reference Denkena B, Kôhler J (2010) Consideration of the form of the undeformed section of cut in the calculation of machining forces. Mach Sci Technol 14(4):455–470CrossRef Denkena B, Kôhler J (2010) Consideration of the form of the undeformed section of cut in the calculation of machining forces. Mach Sci Technol 14(4):455–470CrossRef
23.
go back to reference Lorong P, Larue A, Perez Duarte A (2011) Dynamic study of thin wall part turning. Adv Mater Res 223:591–599CrossRef Lorong P, Larue A, Perez Duarte A (2011) Dynamic study of thin wall part turning. Adv Mater Res 223:591–599CrossRef
24.
go back to reference Kienzle O, Victor H (1957) Spezifische schnittkräfte bei der metallbearbeitung. Werkstattstechnik und Maschinenbau 47(5):224–225 Kienzle O, Victor H (1957) Spezifische schnittkräfte bei der metallbearbeitung. Werkstattstechnik und Maschinenbau 47(5):224–225
26.
go back to reference Stevenson R (1998) The measurement of parasitic forces in orthogonal cutting. Int J Mach Tools Manuf 38(1–2):113–130CrossRef Stevenson R (1998) The measurement of parasitic forces in orthogonal cutting. Int J Mach Tools Manuf 38(1–2):113–130CrossRef
27.
go back to reference Wyen CF, Wegener K (2010) Influence of cutting edge radius on cutting forces in machining titanium. CIRP annals 59(1):93–96 Wyen CF, Wegener K (2010) Influence of cutting edge radius on cutting forces in machining titanium. CIRP annals 59(1):93–96
Metadata
Title
Effect of cutting tool geometry on hole quality in orbital drilling
Authors
Pierre-André Rey
Johanna Senatore
Yann Landon
Publication date
13-11-2023
Publisher
Springer London
Published in
The International Journal of Advanced Manufacturing Technology / Issue 2/2024
Print ISSN: 0268-3768
Electronic ISSN: 1433-3015
DOI
https://doi.org/10.1007/s00170-023-12539-y

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