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A S L E Transactions Volume 30, 1987 - Issue 1
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Original Articles

Friction and Wear Behavior of Hard Carbon Films

Shojiro Miyake NTT Electrical Communications Laboratories, Musashino-shi, Tokyo, Japan
,
Sadao Takahashi NTT Electrical Communications Laboratories, Musashino-shi, Tokyo, Japan
,
Iwao Watanabe NTT Electrical Communications Laboratories, Musashino-shi, Tokyo, Japan
&
Hideo Yoshihara NTT Electrical Communications Laboratories, Musashino-shi, Tokyo, Japan
Pages 121-127 | Published online: 25 Mar 2008

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S Miyake, T Shindo & Y Saito. (2011) Low friction wear resistant electroconductive gold and silver nanoperiod multilayer solid lubricant films. Tribology - Materials, Surfaces & Interfaces 5:3, pages 114-120.
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S.D. Dvorak, K.J. Wahl & I.L. Singer. (2002) Friction Behavior of Boric Acid and Annealed Boron Carbide Coatings Studied by In Situ Raman Tribometry. Tribology Transactions 45:3, pages 354-362.
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Shojiro Miyake & Masatoshi Miyake. (2021) Evaluation of Friction Durability of Extremely Thin Diamond-Like Carbon Films by Statistical Cluster and Regression Analyses of Friction Coefficient. Tribology Online 16:2, pages 113-124.
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Ruiyun Li, Yongfu Wang, Junyan Zhang & Ernst Meyer. (2020) Tribochemistry of ultra-low friction fullerene-like carbon films in humid air. Applied Surface Science 507, pages 145040.
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Prabakaran Saravanan, Roman Selyanchyn, Hiroyoshi Tanaka, Shigenori Fujikawa, Stephen Matthew Lyth & Joichi Sugimura. (2017) Ultra-low friction between polymers and graphene oxide multilayers in nitrogen atmosphere, mediated by stable transfer film formation. Carbon 122, pages 395-403.
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Shojiro Miyake, Shota Suzuki & Masatoshi Miyake. (2017) Friction Durability of Extremely Thin Diamond-Like Carbon Films at High Temperature. Materials 10:2, pages 159.
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Hikaru Okubo, Ryo Tsuboi & Shinya Sasaki. (2015) Frictional properties of DLC films in low-pressure hydrogen conditions. Wear 340-341, pages 2-8.
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Shojiro MIYAKE. (2015) Tribology of Thin Films. Journal of the Surface Finishing Society of Japan Journal of The Surface Finishing Society of Japan 66:9, pages 390-396.
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Hikaru Okubo, Kenta Oshima, Ryo Tuboi, Chiharu Tadokoro & Shinya Sasaki. (2015) Effects of Hydrogen on Frictional Properties of DLC Films. Tribology Online 10:6, pages 397-403.
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Hui Song, Li Ji, Hongxuan Li, Xiaohong Liu, Huidi Zhou, Weiqi Wang & Jianmin Chen. (2015) Perspectives of friction mechanism of a-C:H film in vacuum concerning the onion-like carbon transformation at the sliding interface. RSC Advances 5:12, pages 8904-8911.
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Ichiro Minami, Xin He & Braham Prakash. (2014) Coating-lubricant combination for improving tribo-system performance. Lubrication Science 26:5, pages 375-386.
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Liping Wang & Xiufang Liu. (2013) Tribological behavior of DLC/IL solid–liquid lubricating coatings in a high-vacuum condition with alternating high and low temperatures. Wear 304:1-2, pages 13-19.
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Shojiro Miyake, Shintaro Kawasaki & Shohei Yamazaki. (2013) Nanotribology properties of extremely thin diamond-like carbon films at high temperatures with and without vibration. Wear 300:1-2, pages 189-199.
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Xiufang Liu, Jibin Pu, Liping Wang & Qunji Xue. (2013) Novel DLC/ionic liquid/graphene nanocomposite coatings towards high-vacuum related space applications. Journal of Materials Chemistry A 1:11, pages 3797.
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Xiufang Liu, Liping Wang, Zhibin Lu & Qunji Xue. (2012) Vacuum tribological performance of DLC-based solid–liquid lubricating coatings: Influence of sliding mating materials. Wear 292-293, pages 124-134.
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Xiufang Liu, Liping Wang & Qunji Xue. (2011) DLC-based solid–liquid synergetic lubricating coatings for improving tribological behavior of boundary lubricated surfaces under high vacuum condition. Wear 271:5-6, pages 889-898.
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Susan B. Sinnott, Seong-Jun Heo, Donald W. Brenner, Judith A. Harrison & Douglas L. Irving. 2011. Nanotribology and Nanomechanics I. Nanotribology and Nanomechanics I 439 525 .
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Shojiro Miyake, Tadashi Saito, Yoshiteru Yasuda, Yusuke Okamoto & Makoto Kano. (2004) Improvement of boundary lubrication properties of diamond-like carbon (DLC) films due to metal addition. Tribology International 37:9, pages 751-761.
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