An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications

Önçağ, Ali Çağlar; Tosun, Halil; Çelebi, Ahu

doi:10.21541/apjes.579629

An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications

Ahu Çelebi, (Manisa Celal Bayar Üniversitesi, Malzeme Mühendisliği Bölümü, Manisa, Türkiye)

Halil Tosun, (Manisa Celal Bayar Üniversitesi, Malzeme Mühendisliği Bölümü, Manisa, Türkiye)

Ali Çağlar ÖNÇAĞ (ESHOT Genel Müdürlüğü, İzmir, Türkiye)

ACADEMIC PLATFORM-JOURNAL OF ENGINEERING AND SCIENCE

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Yıl: 2020 Cilt: 8 Sayı: 2 Sayfa Aralığı: 316 - 325 Metin Dili: İngilizce DOI: 10.21541/apjes.579629 İndeks Tarihi: 07-12-2021

An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications

Öz:

Hybrid Laminar Flow Control (HLFC) is used in the aviation industry to reduce fuel consumption of civil jet aircrafts. Small holes are required at the leading edges of the aircraft wings and tail planes to reduce friction caused by boundary layer suction. Much research has been made in the application of drilling small holes to Ti-6Al-4V alloys. The most important of these investigations is that the thermal distortion cannot be controlled during the application of a large number of holes in huge areas and thus, it causes deformation as a result of thermal deterioration. When micro drilling is applied, some problems arise due to close proximity of drilled holes. The aim of this investigation is to evaluate the deformation due to the micro laser drilling process and develop an efficient set of certain laser parameters to minimize it. 50 W power pulsed Ytterbium fiber laser having a galvo scanner have been used during the process. The effects of increased waiting time, use of weight on both sides of the specimens and nitrogen cooling upon the deformation of the drilled samples have been investigated. Before and after the drilling process the samples have been scanned by a 6-axis arm CMM having an integrated 3D laser scanner. The deformation patterns have been obtained with the use of PC-DMIS software. As a result, as the waiting time is increased, less deformation has been observed in the samples. In addition, addition of nitrogen gas to the process has positively influenced the deformation minimization efforts.

Anahtar Kelime:

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

[1] H. Yagishita, J. Osawa, "Highly accurate hole making technology of Ti6Al4V by orbital drilling: Effect of oil mist ", Procedia Manufacturing, vol 5, pp. 195-204, 2016.
[2] M. Sen, H. S. Shan, "A review of electrochemical macroto micro-hole drilling processes", International Journal of Machine Tools and Manufacture, vol. 45, no 2, pp. 137-152, 2005.
[3] M. C. Kayacan, Y. B. Baykal, T. Karaaslan, K. Özsoy, İ. Alaca, B. Duman,, Y. E& Delikanlı, "Monitoring the osseointegration process in porous Ti6Al4V implants produced by additive manufacturing: an experimental study in sheep", Journal of Applied Biomaterials & Functional Materials, vol 16, no. 2, pp. 68-75, 2018.
[4] H. Huang, L.-M. Yang ve J. Liu, "Huan Huang,, Lih-Mei Yang, and Jian Liu", Micro-hole drilling and cutting using femtosecond fiber laser, vol. 3, no 53, 2014.
[5] C.Y. Wu, C.W. Shu, Z.C. Yeh, "Effects of excimer laser illumination on microdrilling into an oblique polymer surface", Optics and Lasers in Engineering, vol. 44, no 8, pp. 842-857, 2006.
[6] T. M. Young, B. Humpherys, J. P. Fielding, "Investigation of hybrid laminar flow control (HLFC) surfaces", Aircraft Design, vol 4, no 2-3, pp. 127-146, 2001.
[7] S. U. S., P. S. Jagtap, "Optimization of micro EDM drilling process parameters for titanium alloy by rotating electrode", Procedia Manufacturing, vol. 20, pp. 119-126, 2018.
[8] G. Casalino, A.M. Losacco, A. Arnesano, F. Facchini, M. Pierangeli, C. Bonserio, "Statistical analysis and modelling of an Yb: KGW femtosecond laser micro-drilling process", Procedia CIRP, vol. 62, pp. 275-280, 2017.
[9] L. Li, C. Diver, J. P Atkinson, R. Giedl-Wagner, H. J. Helml, "Sequential laser and EDM micro-drilling for next generation fuel injection nozzle manufacture", CIRP Annals, vol. 55, no 1, pp. 179-182, 2006.
[10] J. Tu, A. G. Paleocrassas, N. Reeves ve N. Rajule, "Experimental characterization of a micro-hole drilling process with short micro-second pulses by a CW singlemode fiber laser", Optics and Lasers in Engineering, vol. 55, pp. 275-283, 2014.
[11] D. Ashkenasi, T. Kaszemeikata, N. Muellera, R. Dietrich, "Laser trepanning for industrial applications", Physics Procedia, vol. 23, no Part B, pp. 323-331, 2011.
[12] W. Schulz, U. Eppelt ve R. Poprawe, "Review on laser drilling I. Fundamentals, modeling, and simulation", Journal of Laser Applications, vol. 25, no 1, 2013.
[13] I. Arrizubieta, A. Lamikiz, S. Martínez, E. Ukar, I. Tabernero, F. Girotab, "Internal characterization and hole formation mechanism in the laser percussion drilling process", International Journal of Machine Tools and Manufacture, vol. 75, pp. 55-62, 2013.
[14] S.C. Tam, C.Y. Yeo, R. Willams, L.J. Yang, S. Jana, L.E.N. Lim, M.W.S. Lau, Y.M. Noor, "Optimization of laser deep-hole drilling of Inconel-718 using the Taguchi method", J. Mater. Process. Technol., vol. 37 pp. 741–757, 1993.
[15] W.K. Hamoudi, B.G. Rasheed, "Parameters affecting Nd:YAG laser drilling of metals", Int. J. Joining Mater. , vol. 7, pp. 63–69, 1995.
[16] B.S. Yilbas, "Parametric study to improve laser hole drilling process", J. Mater. Process. Technol., vol. 70, pp. 264–273, 1997.
[17] C.Y. Yeo, S.C. Tam, S. Jana, M.W.S. Lau, " A technical review of the laser drilling of aerospace materials", J. Mater. Process. Technol., vol. 42, pp. 15–49, 1994.
[18] X. Chen, X. Liu, W.T. Lotshaw, "Machining with ultrashort laser pulses", ICALEO E, pp. 64–7, 1996.
[19] T.J. Rockstroh, X. Chen, W.T. Lotshaw, "Influence of laser pulse duration on laser drilled hole quality in nickel based super alloy", ICALEO C, pp. 113–122, 1996.
[20] X. Chen, W.T. Lotshaw, A.L. Ortiz, P.R. Staver, C.E. Erikson, M.H. Mclaughlin, T.J. Rockstroh, "Laser drilling of advanced materials: Effects of peak power, pulse format, and wavelength", J. Laser Appl., vol. 8, pp. 233–239, 1996.
[21] S.O. Roos, "Laser drilling with different pulse shapes”, J. Appl. Phys., vol. 51, pp. 5480–5485, 1980.
[22] D.K. Low, L. Li, P.J. Byrd, "Taper control mechanism and taper control during laser percussion drilling of Ni alloy", Proceedings of the 33rd International Matador Conference, Springer, London, 913–921, (2000).
[23] D.K. Low, L. Li, A.G. Corfe, P.J. Byrd, "Taper control during percussion drilling of Nimonic alloy using sequential pulse delivery pattern control (SPDPC) ", Proceedings of the ICALEO C, vol. 87, Springer, Berlin, 11–20, (1999).
[24] S. Bandyopadhyay, J.K. Sarin Sundar, G. Sundararajan, S.V. Joshi, "Geometrical features and metallurgical characteristics of Nd:YAG laser drilled holes in thick IN718 and Ti–6Al–4V sheets", Journal of Materials Processing Technology, vol. 127, pp. 83–95, 2002.
[25] G. D. Gautam, A. K. Pandey, "Pulsed Nd:YAG laser beam drilling: A review", Optics & Laser Technology, vol. 100, pp. 183-215, 2018.
[26] A. Stephen, G. Schrauf, . S. Mehrafsun, F. Vollertsen, "High speed laser micro drilling for aerospace applications", Procedia CIRP, vol. 24, pp. 130-133, 2014.
[27] E. Kannatey-Asibu, Jr., Principles of Laser Materials Processing, John Wiley & Sons, Inc., Hoboken, USA, 231- 280p., 361-383p, 2009.
[28] A. Bharatish, H.N. Narasimha Murthyn, G. Aditya, B. Anand, B.S. Satyanarayana, M. Krishna, "Evaluation of thermal residual stresses in laser drilled alumina ceramics using Micro-Raman spectroscopy and COMSOL Multiphysics", Optics & Laser Technology, vol. 70, pp. 76- 84, July 2015.
[29] G. H. S. J. S. S. J. S. Badyopadhyay S, "A statistical approach to determine process parameter impact in Nd:YAG laser drilling of IN718 and Ti-6Al-4V sheets", Optic and Lasers Engineering, vol. 43, p. 163, August 2005.
[30] HP-L-8.9 Laser Scanner Brochure, URL: http://apps.hexagon.se/downloads123/hxmt/romer/H PL89/brochures/HP-L 8.9 brochure en. pdf» Hexagon Metrology, [Erişim zamanı: Ocak, 01 2018].
[31] C. Fry, A. Faulkner, Current concepts in aesthetic and reconstructive oculoplastic surgery, vol. 54, Current Concepts in Aesthetic and Reconstructive Oculoplastic Surgery, pp. 957, 2000.

APA	Çelebi A, Tosun H, Önçağ A (2020). An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications. , 316 - 325. 10.21541/apjes.579629
Chicago	Çelebi Ahu,Tosun Halil,Önçağ Ali Çağlar An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications. (2020): 316 - 325. 10.21541/apjes.579629
MLA	Çelebi Ahu,Tosun Halil,Önçağ Ali Çağlar An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications. , 2020, ss.316 - 325. 10.21541/apjes.579629
AMA	Çelebi A,Tosun H,Önçağ A An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications. . 2020; 316 - 325. 10.21541/apjes.579629
Vancouver	Çelebi A,Tosun H,Önçağ A An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications. . 2020; 316 - 325. 10.21541/apjes.579629
IEEE	Çelebi A,Tosun H,Önçağ A "An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications." , ss.316 - 325, 2020. 10.21541/apjes.579629
ISNAD	Çelebi, Ahu vd. "An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications". (2020), 316-325. https://doi.org/10.21541/apjes.579629

APA	Çelebi A, Tosun H, Önçağ A (2020). An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications. ACADEMIC PLATFORM-JOURNAL OF ENGINEERING AND SCIENCE, 8(2), 316 - 325. 10.21541/apjes.579629
Chicago	Çelebi Ahu,Tosun Halil,Önçağ Ali Çağlar An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications. ACADEMIC PLATFORM-JOURNAL OF ENGINEERING AND SCIENCE 8, no.2 (2020): 316 - 325. 10.21541/apjes.579629
MLA	Çelebi Ahu,Tosun Halil,Önçağ Ali Çağlar An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications. ACADEMIC PLATFORM-JOURNAL OF ENGINEERING AND SCIENCE, vol.8, no.2, 2020, ss.316 - 325. 10.21541/apjes.579629
AMA	Çelebi A,Tosun H,Önçağ A An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications. ACADEMIC PLATFORM-JOURNAL OF ENGINEERING AND SCIENCE. 2020; 8(2): 316 - 325. 10.21541/apjes.579629
Vancouver	Çelebi A,Tosun H,Önçağ A An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications. ACADEMIC PLATFORM-JOURNAL OF ENGINEERING AND SCIENCE. 2020; 8(2): 316 - 325. 10.21541/apjes.579629
IEEE	Çelebi A,Tosun H,Önçağ A "An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications." ACADEMIC PLATFORM-JOURNAL OF ENGINEERING AND SCIENCE, 8, ss.316 - 325, 2020. 10.21541/apjes.579629
ISNAD	Çelebi, Ahu vd. "An Investigation of the Deformation Patterns Due to the High-Speed Micro-Laser Drilling Process for Ti-6Al-4V Used in Aerospace Applications". ACADEMIC PLATFORM-JOURNAL OF ENGINEERING AND SCIENCE 8/2 (2020), 316-325. https://doi.org/10.21541/apjes.579629