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ĭowling D (2008) Metal finishing: enhanced performance achieved through plasma processing. Zolgharni M, Jones BJ, Bulpett R, Anson AW, Franks J (2008) Energy efficiency improvements in dry drilling with optimised diamond-like carbon coatings. īhowmick S, Alpas AT (2008) The performance of hydrogenated and non-hydrogenated diamond-like carbon tool coatings during the dry drilling of 319 Al. Zaidi H, Djamai A, Chin KJ, Mathia T (2006) Characterisation of DLC coating adherence by scratch testing. Irmer G, Dorner-Reisel A (2005) Micro-Raman studies on DLC coatings. Lee JJ (2005) Application of inductively coupled plasma to CVD and PVD.
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SEI Tech Rev 55:89–94įukui H, Okida J, Omori N, Moriguchi H, Tsuda K (2004) Cutting performance of DLC coated tools in dry machining aluminum alloys. Kagiya Y (2003) Development of DLC coating film (AURORACOAT) and its application to tools. Pauschitz A, Schalko J, Koch T, Eisenmenger-Sittner C, Kvasnica S, Roy M (2003) Nanoindentation and AFM studies of PECVD DLC and reactively sputtered Ti containing carbon films. (00)00711-8ĭorner A, Schürer C, Reisel G, Irmer G, Seidel O, Müller E (2001) Diamond-like carbon-coated Ti6Al4V: influence of the coating thickness on the structure and the abrasive wear resistance. Psyllaki PP, Jeandin M, Pantelis DI, Allouard M (2000) Pin-on-disc testing of PE-CVD diamond-like carbon coatings on tool steel substrates. Ĭonrads H, Schmidt M (2000) Plasma generation and plasma sources. Niu P, Cheng Q, Zhang T, Yang C, Zhang Z, Liu Z (2023) Hyperstatic mechanics analysis of guideway assembly and motion errors prediction method under thread friction coefficient uncertainties. Springer Science & Business MediaĮrdemir A, Donnet C (2006) Tribology of diamond-like carbon films: recent progress and future prospects. This is due to the low coefficient of friction and low wear loss of the DLC coatings.ĭonnet C, Erdemir A (eds) (2007) Tribology of diamond-like carbon films: fundamentals and applications. The dry-cutting test showed that coated drill bits produce a better surface finish and consume less power in the drilling operation than uncoated drill bits.
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Results showed that the DLC-coated substrate had less wear loss and coefficient of friction than the uncoated substrate. Furthermore, the optimized DLC coatings tribological test and the effect of DLC coating on the tool life were performed. Coating deposition and optimization were carried out as per the Taguchi method. Coating’s chemical, composition, topography, and mechanical properties measurements were checked using Fourier transform infrared (FTIR), micro-Raman spectroscopy, atomic force microscopy, and intrinsic stress and nano-hardness/micro-hardness tester, respectively. DLC coatings were grown over the silicon, high-speed steel, and stainless-steel pin substrate. DLC coatings are deposited using plasma-enhanced chemical vapor deposition (PECVD) process by varying the process parameters, bias voltage, bias frequency, gas mixture, and working pressure. To learn more about how and for what purposes Amazon uses personal information (such as Amazon Store order history), please visit our Privacy Notice.This study demonstrates the performance enhancement of drill bits during dry cutting operation of LM6 aluminum alloy and bright mild steel using optimized diamond-like carbon (DLC) coatings. You can change your choices at any time by visiting Cookie Preferences, as described in the Cookie Notice. Click ‘Customise Cookies’ to decline these cookies, make more detailed choices, or learn more. Third parties use cookies for their purposes of displaying and measuring personalised ads, generating audience insights, and developing and improving products. This includes using first- and third-party cookies, which store or access standard device information such as a unique identifier. If you agree, we’ll also use cookies to complement your shopping experience across the Amazon stores as described in our Cookie Notice. We also use these cookies to understand how customers use our services (for example, by measuring site visits) so we can make improvements. We use cookies and similar tools that are necessary to enable you to make purchases, to enhance your shopping experiences and to provide our services, as detailed in our Cookie Notice.