Investigation of Cutting Performance of Nano/Layered Hard Coatings in Face Milling of AISI D2 Steel

Year 2023, Volume: 11 Issue: 3, 1206 - 1217, 31.07.2023

Bilal Kurşuncu

https://doi.org/10.29130/dubited.1151275

Abstract

In the die-molding industry, milling steels in a hardened condition is common. Tool wear and cutting-forces occurring during this process must be considered for better surface quality. The cutting performance of nano-layered AlTiN/TiN coated carbide cutting-tools in AISI D2 face-milling was evaluated in this work. Single-layer hard-coated carbide cutting-tools and uncoated cutting-tools were used to compare cutting performance testing. All cutting-speeds nano-layer AlTiN/TiN coated carbide cutting tool presented longer cutting-length than TiAlN and TiN coated ones and uncoated tool. Notch wear is an overriding wear mechanism, followed by build-up edge formation for all cutting-tools. Using a nano-layer AlTiN / TiN hard-coating, cutting-force values were lowered in all experiments.

Keywords

Tool wear, Cutting-force, Hardened steel, High-speed machining, nano-layer hard-coatings.

Thanks

I want to thank Professor Peter PANJAN from Jožef Stefan Institute for his outstanding contribution to hard-coatings production.

AISI D2 Çeliğinin Yüzey Frezelemesinde Nano/Tabakalı Sert Kaplamaların Kesme Performansının İncelenmesi

Abstract

Kalıp döküm endüstrisinde, çeliklerin sertleştirilmiş durumda frezelenmesi yaygındır. Daha iyi bir yüzey kalitesi için bu işlem sırasında oluşan takım aşınması ve kesme kuvvetleri dikkate alınmalıdır. Bu çalışmada, nano katmanlı AlTiN/TiN kaplı karbür kesici takımların AISI D2 yüzey frezelemede kesme performansı incelenmiştir. Kesme performansı karşılaştırmak için tek katmanlı sert kaplamalı karbür kesici takımlar ve kaplamasız kesici takımlar kullanılmıştır. Tüm kesme hızlarında, nano katmanlı AlTiN/TiN kaplı karbür kesici takım, TiAlN ve TiN kaplı olanlardan ve kaplamasız takımdan daha uzun takım ömrü sergilemiştir. Tüm kesici takımlarda çentik aşınması ve yığma kenar oluşumu etkin aşınmaları olduğu görülmüştür. Tüm parametrelerde nano katmanlı AlTiN/TiN sert kaplamalar kullanılarak daha düşük kesme kuvveti değerleri ölçülmüştür.

Keywords

Tool wear, Cutting-force, Hardened steel, High-speed machining, nano-layer hard-coatings.

References

• [1] L. Smith and P. Ball, “Steps towards sustainable manufacturing through modelling material, energy and waste flows,” Int. J. Prod. Econ., vol. 140, no. 1, pp. 227–238, 2012, doi: 10.1016/j.ijpe.2012.01.036.
• [2] P. Krajnik, F. Pusavec, and A. Rashid, “Nanofluids: properties, applications and sustainability aspects in materials processing technologies BT - advances in sustainable manufacturing: Proceedings of the 8th Global Conference on Sustainable Manufacturing,” G. Seliger, M. M. K. Khraisheh, and I. S. Jawahir Eds. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011, pp. 107–113.
• [2] P. Krajnik, F. Pusavec, and A. Rashid, “Nanofluids: properties, applications and sustainability aspects in materials processing technologies BT - advances in sustainable manufacturing: Proceedings of the 8th Global Conference on Sustainable Manufacturing,” G. Seliger, M. M. K. Khraisheh, and I. S. Jawahir Eds. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011, pp. 107–113.
• [3] B. Kursuncu and A. Yaras, “AISI O2 takım çeliğinin frezelenmesinde minimum miktarda yağlama (MQL) sisteminin kesme performansına e,tkisi,” Mühendislik ve Teknol. Bilim. Derg., vol. 5, no. 2, pp. 125–128, 2018.
• [3] B. Kursuncu and A. Yaras, “AISI O2 takım çeliğinin frezelenmesinde minimum miktarda yağlama (MQL) sisteminin kesme performansına e,tkisi,” Mühendislik ve Teknol. Bilim. Derg., vol. 5, no. 2, pp. 125–128, 2018.
• [4] Caliskan, H., Kursuncu, B., Guven, S. Y., Karaoglanli, A. C., Sabri Gok, M., & Alsaran, A. “Effect of boron nitride coating on wear behavior of carbide cutting tools in milling of Inconel 718,” in Machining, Joining and Modifications of Advanced Materials, Singapore: Springer, 2016, pp. 13-21.
• [4] Caliskan, H., Kursuncu, B., Guven, S. Y., Karaoglanli, A. C., Sabri Gok, M., & Alsaran, A. “Effect of boron nitride coating on wear behavior of carbide cutting tools in milling of Inconel 718,” in Machining, Joining and Modifications of Advanced Materials, Singapore: Springer, 2016, pp. 13-21.
• [5] B. Kursuncu and A. Yaras, “Assessment of the effect of borax and boric acid additives in cutting fluids on milling of AISI O2 using MQL system,” Int. J. Adv. Manuf. Technol., vol. 95, no. 5, pp. 2005–2013, 2018.
• [5] B. Kursuncu and A. Yaras, “Assessment of the effect of borax and boric acid additives in cutting fluids on milling of AISI O2 using MQL system,” Int. J. Adv. Manuf. Technol., vol. 95, no. 5, pp. 2005–2013, 2018.
• [6] M. Kunca, K. Kaplan, H. M. Ertunç, and S. Küçükateş, “5 Axis CNC precision tire side machining” Eur. J. Tech., vol. 6, no. 2, pp. 117–123, Aug. 2016.
• [6] M. Kunca, K. Kaplan, H. M. Ertunç, and S. Küçükateş, “5 Axis CNC precision tire side machining” Eur. J. Tech., vol. 6, no. 2, pp. 117–123, Aug. 2016.
• [7] A. Poomari, B. Mohan, A. Rajadurai, and A. S. Kumar, “Wear performance of Ti-Al-N coated and cryogenically treated cermet tools while machining Aisi 4340 steel,” Adv. Mater. Res., vol. 622–623, pp. 404–408, 2012.
• [7] A. Poomari, B. Mohan, A. Rajadurai, and A. S. Kumar, “Wear performance of Ti-Al-N coated and cryogenically treated cermet tools while machining Aisi 4340 steel,” Adv. Mater. Res., vol. 622–623, pp. 404–408, 2012.
• [8] W. Li, Y. B. Guo, M. E. Barkey, and J. B. Jordon, “Effect tool wear during end milling on the surface integrity and fatigue life of Inconel 718,” Procedia CIRP, vol. 14, pp. 546–551, 2014.
• [8] W. Li, Y. B. Guo, M. E. Barkey, and J. B. Jordon, “Effect tool wear during end milling on the surface integrity and fatigue life of Inconel 718,” Procedia CIRP, vol. 14, pp. 546–551, 2014.
• [9] B. Kursuncu, H. Caliskan, S. Y. Guven, and P. Panjan, “Improvement of cutting performance of carbide cutting tools in milling of the Inconel 718 superalloy using multilayer nanocomposite hard coating and cryogenic heat treatment,” Int. J. Adv. Manuf. Technol., vol. 97, no. 1–4, pp. 467–479, 2018.
• [9] B. Kursuncu, H. Caliskan, S. Y. Guven, and P. Panjan, “Improvement of cutting performance of carbide cutting tools in milling of the Inconel 718 superalloy using multilayer nanocomposite hard coating and cryogenic heat treatment,” Int. J. Adv. Manuf. Technol., vol. 97, no. 1–4, pp. 467–479, 2018.
• [10] B. Kursuncu, H. Caliskan, S. Y. Guven, and P. Panjan, “Wear behavior of multilayer nanocomposite TiAlSiN/TiSiN/TiAlN coated carbide cutting tool during cace milling of Inconel 718 superalloy,” J. Nano Res., vol. 47, no. December, pp. 11–16, 2017.
• [10] B. Kursuncu, H. Caliskan, S. Y. Guven, and P. Panjan, “Wear behavior of multilayer nanocomposite TiAlSiN/TiSiN/TiAlN coated carbide cutting tool during cace milling of Inconel 718 superalloy,” J. Nano Res., vol. 47, no. December, pp. 11–16, 2017.
• [11] S. S. Gill, R. Singh, H. Singh, and J. Singh, “Wear behaviour of cryogenically treated tungsten carbide inserts under dry and wet turning conditions,” Int. J. Mach. Tools Manuf., vol. 49, no. 3–4, pp. 256–260, 2009.
• [11] S. S. Gill, R. Singh, H. Singh, and J. Singh, “Wear behaviour of cryogenically treated tungsten carbide inserts under dry and wet turning conditions,” Int. J. Mach. Tools Manuf., vol. 49, no. 3–4, pp. 256–260, 2009.
• [12] Chetan, S. Ghosh, and P. V. Rao, “Performance evaluation of deep cryogenic processed carbide inserts during dry turning of Nimonic 90 aerospace grade alloy,” Tribol. Int., vol. 115, pp. 397–408, Nov. 2017.
• [12] Chetan, S. Ghosh, and P. V. Rao, “Performance evaluation of deep cryogenic processed carbide inserts during dry turning of Nimonic 90 aerospace grade alloy,” Tribol. Int., vol. 115, pp. 397–408, Nov. 2017.
• [13] S. Zhang, J. F. Li, and Y. W. Wang, “Tool life and cutting forces in end milling Inconel 718 under dry and minimum quantity cooling lubrication cutting conditions,” J. Clean. Prod., vol. 32, pp. 81–87, 2012.
• [13] S. Zhang, J. F. Li, and Y. W. Wang, “Tool life and cutting forces in end milling Inconel 718 under dry and minimum quantity cooling lubrication cutting conditions,” J. Clean. Prod., vol. 32, pp. 81–87, 2012.
• [14] J. Sharma and B. S. Sidhu, “Investigation of effects of dry and near dry machining on AISI D2 steel using vegetable oil,” J. Clean. Prod., vol. 66, pp. 619–623, Mar. 2014.
• [14] J. Sharma and B. S. Sidhu, “Investigation of effects of dry and near dry machining on AISI D2 steel using vegetable oil,” J. Clean. Prod., vol. 66, pp. 619–623, Mar. 2014.
• [15] J. Gu, G. Barber, S. Tung, and R.-J. Gu, “Tool life and wear mechanism of uncoated and coated milling inserts,” Wear, vol. 225–229, pp. 273–284, 1999.
• [15] J. Gu, G. Barber, S. Tung, and R.-J. Gu, “Tool life and wear mechanism of uncoated and coated milling inserts,” Wear, vol. 225–229, pp. 273–284, 1999.
• [16] G. M. Krolczyk, P. Nieslony, R. W. Maruda, and S. Wojciechowski, “Dry cutting effect in turning of a duplex stainless steel as a key factor in clean production,” J. Clean. Prod., vol. 142, pp. 3343–3354, Jan. 2017.
• [16] G. M. Krolczyk, P. Nieslony, R. W. Maruda, and S. Wojciechowski, “Dry cutting effect in turning of a duplex stainless steel as a key factor in clean production,” J. Clean. Prod., vol. 142, pp. 3343–3354, Jan. 2017.
• [17] I. Ucun, K. Aslantas, and F. Bedir, “The performance Of DLC-coated and uncoated ultra-fine carbide tools in micromilling of Inconel 718,” Precis. Eng., vol. 41, pp. 135–144, 2015.
• [17] I. Ucun, K. Aslantas, and F. Bedir, “The performance Of DLC-coated and uncoated ultra-fine carbide tools in micromilling of Inconel 718,” Precis. Eng., vol. 41, pp. 135–144, 2015.
• [18] H. Caliskan, C. C. Celil, and P. Panjan, “Effect of multilayer nanocomposite TiAlSiN/TiSiN/TiAlN noating on wear behavior of carbide tools in the milling of hardened AISI D2 steel,” J. Nano Res., vol. 38, pp. 9–17, 2016.
• [18] H. Caliskan, C. C. Celil, and P. Panjan, “Effect of multilayer nanocomposite TiAlSiN/TiSiN/TiAlN noating on wear behavior of carbide tools in the milling of hardened AISI D2 steel,” J. Nano Res., vol. 38, pp. 9–17, 2016.
• [19] A. Biksa et al., “Wear behavior of adaptive nano-multilayered AlTiN/MexN PVD coatings during machining of aerospace alloys,” Tribol. Int., vol. 43, no. 8, pp. 1491–1499, 2010.
• [19] A. Biksa et al., “Wear behavior of adaptive nano-multilayered AlTiN/MexN PVD coatings during machining of aerospace alloys,” Tribol. Int., vol. 43, no. 8, pp. 1491–1499, 2010.
• [20] C. Mitterer, P. Losbichler, and F. Hofer, “Nanocrystalline hard coatings within the quasi-binary system TiN–TiB 2,” Vacuum, vol. 50, no. 3, pp. 313–318, 1998.
• [20] C. Mitterer, P. Losbichler, and F. Hofer, “Nanocrystalline hard coatings within the quasi-binary system TiN–TiB 2,” Vacuum, vol. 50, no. 3, pp. 313–318, 1998.
• [21] J. E. Sundgren, “B. 0. Johansson, SE Karlsson and HTG Hentzell,” Thin Solid Films, vol. 105, pp. 367, 1983.
• [21] J. E. Sundgren, “B. 0. Johansson, SE Karlsson and HTG Hentzell,” Thin Solid Films, vol. 105, pp. 367, 1983.
• [22] D. McIntyre, J. E. Greene, G. Håkansson, J. Sundgren, and W. Münz, “Oxidation of metastable single‐phase polycrystalline Ti0. 5Al0. 5N films: Kinetics and mechanisms,” J. Appl. Phys., vol. 67, no. 3, pp. 1542–1553, 1990.
• [22] D. McIntyre, J. E. Greene, G. Håkansson, J. Sundgren, and W. Münz, “Oxidation of metastable single‐phase polycrystalline Ti0. 5Al0. 5N films: Kinetics and mechanisms,” J. Appl. Phys., vol. 67, no. 3, pp. 1542–1553, 1990.
• [23] V. H. Derflinger, A. Schütze, and M. Ante, “Mechanical and structural properties of various alloyed TiAlN-based hard coatings,” Surf. Coatings Technol., vol. 200, no. 16–17, pp. 4693–4700, 2006.
• [23] V. H. Derflinger, A. Schütze, and M. Ante, “Mechanical and structural properties of various alloyed TiAlN-based hard coatings,” Surf. Coatings Technol., vol. 200, no. 16–17, pp. 4693–4700, 2006.
• [24] J. . Hsieh, C. Liang, C. . Yu, and W. Wu, “Deposition and characterization of TiAlN and multi-layered TiN/TiAlN coatings using unbalanced magnetron sputtering,” Surf. Coatings Technol., vol. 108–109, pp. 132–137, 1998.
• [24] J. . Hsieh, C. Liang, C. . Yu, and W. Wu, “Deposition and characterization of TiAlN and multi-layered TiN/TiAlN coatings using unbalanced magnetron sputtering,” Surf. Coatings Technol., vol. 108–109, pp. 132–137, 1998.
• [25] Y. Y. Chang and H. M. Lai, “Wear behavior and cutting performance of CrAlSiN and TiAlSiN hard coatings on cemented carbide cutting tools for Ti alloys,” Surf. Coatings Technol., vol. 259, no. PB, pp. 152–158, 2014.
• [25] Y. Y. Chang and H. M. Lai, “Wear behavior and cutting performance of CrAlSiN and TiAlSiN hard coatings on cemented carbide cutting tools for Ti alloys,” Surf. Coatings Technol., vol. 259, no. PB, pp. 152–158, 2014.
• [26] R. Haubner, M. Lessiak, R. Pitonak, A. Köpf, and R. Weissenbacher, “Evolution of conventional hard coatings for its use on cutting tools,” Int. J. Refract. Met. Hard Mater., vol. 62, pp. 210-218, 2016.
• [26] R. Haubner, M. Lessiak, R. Pitonak, A. Köpf, and R. Weissenbacher, “Evolution of conventional hard coatings for its use on cutting tools,” Int. J. Refract. Met. Hard Mater., vol. 62, pp. 210-218, 2016.
• [27] C.-L. Chang, J.-W. Lee, and M.-D. Tseng, “Microstructure, corrosion and tribological behaviors of TiAlSiN coatings deposited by cathodic arc plasma deposition,” Thin Solid Films, vol. 517, no. 17, pp. 5231–5236, Jul. 2009.
• [27] C.-L. Chang, J.-W. Lee, and M.-D. Tseng, “Microstructure, corrosion and tribological behaviors of TiAlSiN coatings deposited by cathodic arc plasma deposition,” Thin Solid Films, vol. 517, no. 17, pp. 5231–5236, Jul. 2009.
• [28] H. Caliskan, C. Kurbanoglu, D. Kramar, P. Panjan, and J. Kopac, “Hard milling operation of AISI O2 cold work tool steel by carbide tools,” Engineering Science & Technology, an International Journal, vol. 15, no. 1, pp. 21–26, 2012.
• [28] H. Caliskan, C. Kurbanoglu, D. Kramar, P. Panjan, and J. Kopac, “Hard milling operation of AISI O2 cold work tool steel by carbide tools,” Engineering Science & Technology, an International Journal, vol. 15, no. 1, pp. 21–26, 2012.
• [29] H. Caliskan, C. Kurbanolu, P. Panjan, M. cekada, and D. Kramar, “Wear behavior and cutting performance of nanostructured hard coatings on cemented carbide cutting tools in hard milling,” Tribol. Int., vol. 62, pp. 215–222, 2013.
• [29] H. Caliskan, C. Kurbanolu, P. Panjan, M. cekada, and D. Kramar, “Wear behavior and cutting performance of nanostructured hard coatings on cemented carbide cutting tools in hard milling,” Tribol. Int., vol. 62, pp. 215–222, 2013.
• [30] M. Yao, “Performance of nanolayer CrN/Ag coated cutting tools,” Surf. Eng., vol. 27, no. 3, pp. 180–189, 2011.
• [30] M. Yao, “Performance of nanolayer CrN/Ag coated cutting tools,” Surf. Eng., vol. 27, no. 3, pp. 180–189, 2011.
• [31] J. Yi et al., “Effects of Ni content on microstructure, mechanical properties and Inconel 718 cutting performance of AlTiN-Ni nanocomposite coatings,” Ceram. Int., no. August, pp. 0–1, 2018.
• [31] J. Yi et al., “Effects of Ni content on microstructure, mechanical properties and Inconel 718 cutting performance of AlTiN-Ni nanocomposite coatings,” Ceram. Int., no. August, pp. 0–1, 2018.
• [32] J. Patscheider, “Nanocomposite hard coatings for wear protection,” MRS Bull., vol. 28, no. 03, pp. 180–183, 2003.
• [32] J. Patscheider, “Nanocomposite hard coatings for wear protection,” MRS Bull., vol. 28, no. 03, pp. 180–183, 2003.
• [33] C. Kannan, R. Ramanujam, and A. S. S. Balan, “Machinability studies on Al 7075/BN/Al2O3 squeeze cast hybrid nanocomposite under different machining environments,” Mater. Manuf. Process., vol. 33, no. 5, pp. 587–595, 2018.
• [33] C. Kannan, R. Ramanujam, and A. S. S. Balan, “Machinability studies on Al 7075/BN/Al2O3 squeeze cast hybrid nanocomposite under different machining environments,” Mater. Manuf. Process., vol. 33, no. 5, pp. 587–595, 2018.
• [34] H. Caliskan, C. Kurbanoglu, P. Panjan, and D. Kramar, “Investigation of the performance of carbide cutting tools with hard coatings in hard milling based on the response surface methodology,” Int. J. Adv. Manuf. Technol., vol. 66, no. 5–8, pp. 883–893, 2013.
• [34] H. Caliskan, C. Kurbanoglu, P. Panjan, and D. Kramar, “Investigation of the performance of carbide cutting tools with hard coatings in hard milling based on the response surface methodology,” Int. J. Adv. Manuf. Technol., vol. 66, no. 5–8, pp. 883–893, 2013.
• [35] N. H. Rafai, M. A. Lajis, and N. A. J. Hosni, “Performance of TiAlN-PVD coated carbide tools in milling AISI D2 hardened steels,” World Academy of Science, Engineering and Technology, vol. 77, pp. 1481–1485, 2013.
• [35] N. H. Rafai, M. A. Lajis, and N. A. J. Hosni, “Performance of TiAlN-PVD coated carbide tools in milling AISI D2 hardened steels,” World Academy of Science, Engineering and Technology, vol. 77, pp. 1481–1485, 2013.
• [36] B. Kursuncu, “Influence of cryogenic heat-treatment soaking period and temperature on performance of sintered carbide cutting tools in milling of Inconel 718,” Int. J. Refract. Met. Hard Mater., vol. 92, pp. 105323, 2020.
• [36] B. Kursuncu, “Influence of cryogenic heat-treatment soaking period and temperature on performance of sintered carbide cutting tools in milling of Inconel 718,” Int. J. Refract. Met. Hard Mater., vol. 92, pp. 105323, 2020.
• [37] B. Kursuncu, H. Caliskan, S. Y. Guven, and P. Panjan, “Improvement of cutting performance of carbide cutting tools in milling of the Inconel 718 superalloy using multilayer nanocomposite hard coating and cryogenic heat treatment,” Int. J. Adv. Manuf. Technol., vol. 97, no: 1, pp. 467-469, 2018.
• [37] B. Kursuncu, H. Caliskan, S. Y. Guven, and P. Panjan, “Improvement of cutting performance of carbide cutting tools in milling of the Inconel 718 superalloy using multilayer nanocomposite hard coating and cryogenic heat treatment,” Int. J. Adv. Manuf. Technol., vol. 97, no: 1, pp. 467-469, 2018.
• [38] B. Kursuncu and Y. E. Biyik, “Optimization of cutting parameters with Taguchi and grey relational analysis methods in MQL-assisted face milling of AISI O2 steel,” J. Cent. South Univ., vol. 28, no: 1, 2021.
• [38] B. Kursuncu and Y. E. Biyik, “Optimization of cutting parameters with Taguchi and grey relational analysis methods in MQL-assisted face milling of AISI O2 steel,” J. Cent. South Univ., vol. 28, no: 1, 2021.
• [39] V. V. Cay, “Effects of abrasive particle type, load and sliding distance on micro-abrasion resistance of high speed steel coated with AlCrN or AlTiN,” Materials Science (Medžiagotyra), vol. 27, no: 1, pp. 50-56, 2021.
• [39] V. V. Cay, “Effects of abrasive particle type, load and sliding distance on micro-abrasion resistance of high speed steel coated with AlCrN or AlTiN,” Materials Science (Medžiagotyra), vol. 27, no: 1, pp. 50-56, 2021.