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Relevant bibliographies by topics / Me-DLC

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Journal articles
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Academic literature on the topic 'Me-DLC'

Author: Grafiati

Published: 4 June 2021

Last updated: 14 February 2022

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Journal articles on the topic "Me-DLC"

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Bouabibsa, Imane, Salim Lamri, and Frederic Sanchette. "Structure, Mechanical and Tribological Properties of Me-Doped Diamond-Like Carbon (DLC) (Me = Al, Ti, or Nb) Hydrogenated Amorphous Carbon Coatings." Coatings 8, no. 10 (October 19, 2018): 370. http://dx.doi.org/10.3390/coatings8100370.

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Metal containing hydrogenated diamond-like carbon coatings (Me-DLC, Me = Al, Ti, or Nb) of 3 ± 0.2 μm thickness were deposited by a magnetron sputtering-RFPECVD hybrid process in an Ar/H2/C2H2 mixture. The composition and structure were investigated by Energy Dispersive X-ray Spectroscopy (EDS), X-ray Diffraction (XRD), X-ray photoelectron spectroscopy (XPS), and Raman spectroscopy. The residual stress was measured using the curvature method and nanoindentation was used to determine the hardness and the Young’s modulus. A Ball-on-disk tribometer was employed to investigate the frictional properties and sliding wear resistance of films. The results show that the properties depend on the nature and the Me content in the coatings. The doping of the DLC coatings leads to a decrease in hardness, Young’s modulus, and residual stresses. Wear rate of the films first decreases with intermediate Me contents and then increases for higher Me contents. Significant improvements in the friction coefficient on steel as well as in the wear rate are observed for all Al-DLC coatings, and, concerning the friction coefficient, the lowest value is measured at 0.04 as compared to 0.07 for the undoped DLC.

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Takagi, Toshiyuki, Takanori Takeno, Hiroyuki Miki, and Yun Luo. "Metal-Containing DLC: Toward a Smart Coating on Smart Materials." Materials Science Forum 706-709 (January 2012): 2014–19. http://dx.doi.org/10.4028/www.scientific.net/msf.706-709.2014.

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NiTi shape memory alloys (NiTi-SMA or Nitinol) have successful application thanksto their excellent and unique material properties. However, considering the practical applicationto human body, elution from the toxic Ni ions into human body should be taken into account.Many researchers have dealt with the issue and already proposed various surface treatmenttechniques including the surface oxidation and ion implantation.Our focus is to enhance thefunctionality of Nitinol. We have been developing the smart sensor utilizing metal-containingDiamond-like Carbon (Me-DLC) thin coating. Emphasis can be made on the unique propertiesof Me-DLC deposited on the Nitinol. Strong adhesive strength has been obtained in Me-DLCand Nitinol system. In this paper, we propose a novel Me-DLC coating with multifunctionalityof the suppression of the toxic Ni ions. The paper includes deposition technique, performanceof the coating concerning adhesive strength and suppression of the toxic Ni ions, and ﬁnallymultilayered structure aiming at multifunctionality.

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Flege, Stefan, Ruriko Hatada, Andreas Hanauer, Wolfgang Ensinger, Takao Morimura, and Koumei Baba. "Preparation of Metal-Containing Diamond-Like Carbon Films by Magnetron Sputtering and Plasma Source Ion Implantation and Their Properties." Advances in Materials Science and Engineering 2017 (2017): 1–8. http://dx.doi.org/10.1155/2017/9082164.

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Metal-containing diamond-like carbon (Me-DLC) films were prepared by a combination of plasma source ion implantation (PSII) and reactive magnetron sputtering. Two metals were used that differ in their tendency to form carbide and possess a different sputter yield, that is, Cu with a relatively high sputter yield and Ti with a comparatively low one. The DLC film preparation was based on the hydrocarbon gas ethylene (C2H4). The preparation technique is described and the parameters influencing the metal content within the film are discussed. Film properties that are changed by the metal addition, such as structure, electrical resistivity, and friction coefficient, were evaluated and compared with those of pure DLC films as well as with literature values for Me-DLC films prepared with a different hydrocarbon gas or containing other metals.

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Bewilogua, K., C. V. Cooper, C. Specht, J. Schröder, R. Wittorf, and M. Grischke. "Effect of target material on deposition and properties of metal-containing DLC (Me-DLC) coatings." Surface and Coatings Technology 127, no. 2-3 (May 2000): 223–31. http://dx.doi.org/10.1016/s0257-8972(00)00666-6.

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Kang, Eun-Goo, Dong-Yoon Lee, and Seong-Young Kim. "The Performance Test on Me-DLC Films for Improving Wear Resistance of LM-Guide." Journal of the Korean Society of Precision Engineering 29, no. 4 (April 1, 2012): 409–16. http://dx.doi.org/10.7736/kspe.2012.29.4.409.

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Su, Y. L., and W. H. Kao. "Optimum Me-DLC Coatings and Hard Coatings for Tribological Performance." Journal of Materials Engineering and Performance 9, no. 1 (February 1, 2000): 38–50. http://dx.doi.org/10.1361/105994900770346268.

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Bewilogua, K., C. V. Cooper, C. Specht, J. Schröder, R. Wittorf, and M. Grischke. "Erratum to: “Effect of target material on deposition and properties of metal-containing DLC (Me-DLC) coatings”." Surface and Coatings Technology 132, no. 2-3 (October 2000): 275–83. http://dx.doi.org/10.1016/s0257-8972(00)00746-5.

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HOSHI, Yutaro, Takanori TAKENO, Toshiyuki TAKAGI, Alexei BOZHKO, Hiroyuki MIKI, and Takeshi SATO. "206 Evaluation of characteristics of the Me-DLC films under magnetic field." Proceedings of Conference of Tohoku Branch 2005.40 (2005): 62–63. http://dx.doi.org/10.1299/jsmeth.2005.40.62.

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SUGAWARA, Toshifumi, Takanori TAKENO, Hiroyuki MIKI, Toshiyuki TAKAGI, and Takeshi SATO. "212 Deposition of Me-DLC Films on Polymer Substrate and Properties Evaluation." Proceedings of Conference of Tohoku Branch 2007.42 (2007): 219–20. http://dx.doi.org/10.1299/jsmeth.2007.42.219.

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Petersen, Mirjana, Ulrike Heckmann, Ralf Bandorf, Virginia Gwozdz, Stephan Schnabel, Günter Bräuer, and Claus-Peter Klages. "Me-DLC films as material for highly sensitive temperature compensated strain gauges." Diamond and Related Materials 20, no. 5-6 (May 2011): 814–18. http://dx.doi.org/10.1016/j.diamond.2011.03.036.

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Dissertations / Theses on the topic "Me-DLC"

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Stavlid, Nils. "On the Formation of Low-Friction Tribofilms in Me-DLC – Steel Sliding Contacts." Doctoral thesis, Uppsala : Acta Universitatis Upsaliensis, 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-7369.

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Mutyala, Kalyan Chakravarthi. "Influence of Metallic, Dichalcogenide, and Nanocomposite Tribological Thin Films on The Rolling Contact Performance of Spherical Rolling Elements." University of Akron / OhioLINK, 2015. http://rave.ohiolink.edu/etdc/view?acc_num=akron1447751680.

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Chen, Yow Yih, and 陳佑義. "The study of unbalanced magnetron sputtering system deposit Me- DLC films." Thesis, 1996. http://ndltd.ncl.edu.tw/handle/69931017704326775368.

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碩士
國立中興大學
材料工程學研究所
84
Diamond like carbon (DLC) films are characterized by their lowfriction coefficient, high hardness, and excellent chemical stability.Many potential applications such as enhanced cutting performance fornon-ferrous materials and advanced metal forming capability in dry andhigh loading conditions are under intensive investigation. The limitation of conventional magnetron sputtering includingdeposition rate, microstructure, and film adhesion were drasticallyimproved by the introduction of the closed-field and unbalancedmagnetron. Reactive sputtering of nitride, carbide, and oxide filmscomparable to those deposited by ion plating processes were madepossible by the advent of this unbalanced magnetron design, whichprovided extremely high ion current density needed for depositingtribological films. To improve the interlayer adhesion, theconfiguration of DLC films investigated in this study consisted of fiveintermediate and gradient layers ranging between Ti, TiN, TiCN, TiC,and DLC. To further enhance the fracture toughness of the compoundDLC film (a-C:H/Ti), Ti was introduced to the coating by means of acombined PVD and PECVD process. The DLC films showed a characteristic smooth surface profileowing to its amorphous nature. Nanocrstalline diamond, graphite, andTiC inclusions were identified by TEM and SAD. Superior tribologicalproperties over TiN and TiCN were demonstrated by microhardness andscratch adhesion examinations. The reduction of wear rate of the DLCfilm against WC balls in ball-on-disk tests showed a 30:1 ratio touncoated SKH51 and a 12:1 ratio to TiN coating over SKH51 substrate.However, the DLC film is not suitable for neither aqueous nor hightemperature environments. The microhardness of DLC films started todrop at about 300oC and deteriorated at 400oC. Consequently, the futureimplementation of DLC films should be targeted at non- ferrous, dry, andhigh loading applications.

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Book chapters on the topic "Me-DLC"

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Fraga, M. A., G. Leal, M. Massi, and V. J. Trava-Airoldi. "A Discussion on the Use of Metal-Containing Diamond-Like Carbon (Me-DLC) Films as Selective Solar Absorber Coatings." In Two-Dimensional Nanostructures for Energy-Related Applications, 178–211. Boca Raton, FL : CRC Press, [2016] | “A science publishers book.”: CRC Press, 2017. http://dx.doi.org/10.1201/9781315369877-7.

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Conference papers on the topic "Me-DLC"

1

Heckmann, Ulrike, Ralf Bandorf, Mirjana Petersen, Virginia Gwozdz, and Gunter Brauer. "Matching of maximum gauge factor and TCR zero crossing of Me-DLC." In 2011 IEEE Sensors. IEEE, 2011. http://dx.doi.org/10.1109/icsens.2011.6126973.

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Duong, CongTruyen, JunDong Chang, SangSoo Lee, and Seonghun Park. "Tribological Properties of Hip Implant From Atomic Force Microscopy." In ASME 2009 Summer Bioengineering Conference. American Society of Mechanical Engineers, 2009. http://dx.doi.org/10.1115/sbc2009-206227.

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Mechanical and tribological properties of engineering and biological materials have been investigated at micro-scale levels from Atomic Force Microscopy (AFM) [1]. Regarding the tribological properties of engineering and biological materials such as the diamond-like carbon (DLC) film [2], the TiN film [3], and the surface of middle finger [4], the significant effect of their surface roughness on the frictional coefficient has been reported. However, the contradictory result that the relationship between the surface roughness and frictional behavior of the self-assembled monolayer (SAM), the silicon ruler, and the metal evaporated (ME) tape [5] is not significant has also been reported. Therefore, the main goal of this study is to investigate the relationships between the surface roughness, the frictional coefficient, and the hardness for both the main wear and the least habitual wear regions of the cobalt-chromium metal head of the hip implant from their measurements using AFM and Hardness Testing Machine. With the additional wear measurements of the metal head, the result of this study can help to understand how the micro-scale surface structure of the metal head affects its wear.

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Ottens, Werner, Eberhard Roos, Hans Kockelmann, and Rolf Hahn. "Optimization of Stuffing Box Stem Sealings in Valves by Means of Surface Treatment and Coating." In ASME 2010 Pressure Vessels and Piping Division/K-PVP Conference. ASMEDC, 2010. http://dx.doi.org/10.1115/pvp2010-25043.

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The optimization of the frictional behavior of valve stems in stuffing box sealing systems by means of stem surface treatment and coating is subject of a research project carried out at MPA Stuttgart. Low friction should lead to a high compression and densification of the packing already during assembly resulting in a reduced drop of packing stress with service time and improved tightness. Several surface treatment and coating technologies (Nitrogen and Boron Hardening, inductive coat, Si- and Me-DLC, AlTiN, Chromium-Nitride Multilayer, Tungsten-Carbide and Chromium-Carbide) were examined. Friction tests were carried out at 400 °C followed by leakage tests (160 bar, test fluid Nitrogen) on simulated stuffing box sealings with usual graphite packings and coated or surface treated stems in comparison to a “standard” stem without coating and surface treatment. These combined friction and leakage tests were accompanied by mechanical, technological and metallographical investigations. Visual inspection of the stems after the friction tests suggests a classification in 3 categories depending on the graphite adhesion to the stem surface. Some coatings caused a deterioration (increase of leakage rate) compared to the standard stem (without any coating or surface treatment). In the other cases the leakage rates were comparable to that of the standard stem. Most favorable behavior was observed for the stem with inductive coat. This technology can be seen as a repair technology for damaged stems.

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