a-C:H DLC膜の潤滑性能に及ぼす多層フラーレン粒子の効果
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| Published in | 日本機械学会論文集 Vol. 89; no. 924; p. 23-00126 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | Japanese |
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一般社団法人 日本機械学会
2023
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| Subjects | |
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| ISSN | 2187-9761 |
| DOI | 10.1299/transjsme.23-00126 |
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| Author | 佐々木, 信也 大久保, 光 中野, 健 |
|---|---|
| Author_xml | – sequence: 1 fullname: 大久保, 光 organization: 横浜国立大学 環境情報研究院 – sequence: 1 fullname: 佐々木, 信也 organization: 東京理科大学 工学部 – sequence: 1 fullname: 中野, 健 organization: 横浜国立大学 環境情報研究院 |
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| References | Okubo, H. and Sasaki, S., In situ Raman observation of structural transformation of diamond-like carbon films lubricated with MoDTC solution: Mechanism of wear acceleration of DLC films lubricated with MoDTC solution, Tribology International, Vol. 113 (2017) pp. 399-410 doi.org/10.1016/j.triboint.2016.10.009. Cizaire, L., Vacher, B., Le Mogne, T., Martin, J.M., Rapoport, L., Margolin, A. and Tenne, R., Mechanisms of ultra-low friction by hollow inorganic fullerene-like MoS2 nanoparticles, Surface and Coatings Technology, Vol. 160 (2002) pp. 282–287. Joly-Pottuz, L., Dassenoy, F., Belin, M., Vacher, B., Martin, J.M. and Fleischer, N., Ultra-low friction and wear properties of IFWS2 under boundary lubrication, Tribology Letter, Vol. 18 (2005) pp. 477–485. Guo J. J., Liu G. H., Wang X. M., Fujita T., Xu B. S. and Chen M. W., High-pressure Raman spectroscopy of carbon onions and nanocapsules, Applied Physics Letters, Vol. 95, No. 5 (2009) pp. 051920-1-051920-3. Matsumoto, N., Mistry, K. K., Kim, J-H., Eryilmaz, O.L., Erdemir, A., Kinoshita, H., and Ohmae, N., Friction reducing properties of onion-like carbon based lubricant under high contact pressure, Tribology - Materials, Surfaces & Interfaces, Vol. 6, No. 3(2012) pp. 116-120, DOI: 10.1179/1751584X12Y.0000000014 Vengudusamy, B., Green, JH., Lamb, G.D. and Spikes, HA., Tribological properties of tribofilms formed from ZDDP in DLC/DLC and DLC/steel contacts, Tribology International, Vol. 44 (2011) pp. 165–174. Hirata, A., Igarashi, M. and Kaito, T, Study on solid lubricant properties of carbon onions produced by heat treatment of diamond clusters or particles, Tribology International, Vol. 37 (2004) pp. 899-905. Kano, M., Superlow friction of DLC applied to engine camfollower lubricated with ester-containing oil, Tribology International, Vol. 39 (2006) pp. 1682–1685. Shinyoshi, T., Fuwa, Y. and Ozaki, Y., Wear analysis of DLC coating in oil containing Mo-DTC, SAE International Technical papers, No. 2007-01-1969 (2007) pp. 956-960. Okubo, H. and Sasaki, S., Frequency-Modulation Atomic Force Microscopic Observation for Ultralow Frictional Solid–Liquid Interface of Diamond-Like Carbon in an Environmentally Friendly Oil. Tribology Letter, Vol. 67, Mo. 3 (2019a) Topolovec-Miklozic, K., Lockwood, F. and Spikes, H., Behaviour of boundary lubricating additives on DLC coatings, Wear, Vol. 265 (2008) pp. 1893–1901. Okubo, H., Tadokoro, C., Sumi, T., Tanaka, N., Sasaki, S., Wear acceleration mechanism of diamond-like carbon (DLC) films lubricated with MoDTC solution: Roles of tribofilm formation and structural transformation in wear acceleration of DLC films lubricated with MoDTC solution, Tribology International, Vol. 133 (2019b) pp. 271-287. Jia, Z., Wang, P., Xia, Y., Zhang, H., Pang, X. and Li, B., Tribological behaviors of diamond-like carbon coatings on plasma nitrided steel using three BN-containing lubricants, Applied Surface Science, Vol. 255, No. 13-14 (2009) pp. 6666-6674. Kosarieh, S., Morina, A., Laine, E., Flemming, J. and Neville, A., Wear mechanisms of hydrogenated DLC in oils containing MoDTC, Tribology letter, Vol. 64, No. 4 (2016) pp. 1-17. Kassim, K.A.M., Tokoroyama, T., Murashima, M., Umehara, N., The wear classification of MoDTC-derived particles on silicon and hydrogenated diamond-like carbon at room temperature, Tribology International, Vol. 147 (2020) pp. 1-12. Spikes, H., Friction Modifier Additives. Tribolgy Letter, Vol. 60, No. 5 (2015). Wang, X., Hao, H., Zhang, M., Li, W. and Tao, K., Synthesis and characterization of molybdenum carbides using propan e as carbon source, Journal of Solid State Chemistry, Vol. 179 (2006) pp. 538–543. Ferrari, A. C. and Robertson, J., Interpretation of Raman spectra of disordered and amorphous carbon, Physical Review B, Vol. 61 No. 20 (2000) pp. 95-107. Kosarieh, S., Morina, A., Laine, E., Flemming, J. and Neville, A., The effect of MoDTC-type friction modifier on the wear performance of a hydrogenated DLC coating, Wear, Vol. 302 (2013) pp. 890–898. Vengudusamy, B., Green, JH., Lamb, G.D. and Spikes, HA., Influence of hydrogen and tungsten concentration on the tribological properties of DLC/DLC contacts with ZDDP, Wear, Vol. 298-299 (2013) pp. 109–119. Joly-Pottuz, L., Vacher, B., Ohmae, N., Martin, J. M., and Epicier, T., Anti-wear and Friction Reducing Mechanisms of Carbon Nano-onions as Lubricant Additives, Tribology Letter, Vol. 30, (2008) pp. 69–80. Nakao, S., Fitting Function Effects on Peak Separation of Diamond-like Carbon Films’ Raman Spectra, Journal of The Surface Finishing Society of Japan, Vol. 60, No. 1 (2009) pp. 48-55 (in Japanese). Tevet, O., Von-Huth, P., Popovitz-Biro, R., Rosentsveig, R., Wagner, H.D. and Tenne, R., Friction mechanism of individual multilayered nanoparticles, Proceedings of the National Academy of Sciences of the United States of America, Vol. 108, pp. 19901–19906 (2011). Lahouij, I., Dassenoy, F., de Knoop, L., Martin, J.M. and Vacher, B., In situ TEM observation of the behavior of an individual fullerene-like MoS2 nanoparticle in a dynamic contact, Tribology Letter, Vol. 42 (2011), pp. 133–140. Holmberg, K., Andersson, P. and Erdemir, A., Global energy consumption due to friction in passenger cars, Tribology International, Vol. 47 (2012), pp. 221–234. Obraztsova, E.D., Fujii, M., Hayashi, S., Kuznetsov, V.L., Butenko, Yu.V. and Chuvilin, A.L., Raman identification of onion-like carbon, Carbon, Vol. 36 (1998) pp. 821-826. Feo, D., De Barros Bouchet, M., Minfray, M.I., Esnouf, C., Le Mogne, C., Meunie, T., Yang, F., Thiebaut, B., Pavan, S. and Martin, J.M., Formation of interfacial molybdenum carbide for DLC lubricated by MoDTC: Origin of wear mechanism, Wear, Vol. 370–371, No. 15 (2017) pp. 17–28. Sugimoto, I., Mechanism on specific wear of DLC film in engine oil with Mo-DTC, Transactions of the Japan Society of Mechanical Engineers Series A, Vol. 78 (2012) pp. 213–222. Sugimoto, I., Honda, F. and Inoue, K., Analysis of wear behavior and graphitization of hydrogenated DLC under boundary lubricant with MoDTC, Wear, Vol. 305 (2013) pp. 124–128. Gahlin, R., Larsson, M. and Hedenqvist, P., ME-C:H coatings in motor vehicles, Wear, Vol. 249 (2001) pp. 302–309. |
| References_xml | – reference: Feo, D., De Barros Bouchet, M., Minfray, M.I., Esnouf, C., Le Mogne, C., Meunie, T., Yang, F., Thiebaut, B., Pavan, S. and Martin, J.M., Formation of interfacial molybdenum carbide for DLC lubricated by MoDTC: Origin of wear mechanism, Wear, Vol. 370–371, No. 15 (2017) pp. 17–28. – reference: Wang, X., Hao, H., Zhang, M., Li, W. and Tao, K., Synthesis and characterization of molybdenum carbides using propan e as carbon source, Journal of Solid State Chemistry, Vol. 179 (2006) pp. 538–543. – reference: Guo J. J., Liu G. H., Wang X. M., Fujita T., Xu B. S. and Chen M. W., High-pressure Raman spectroscopy of carbon onions and nanocapsules, Applied Physics Letters, Vol. 95, No. 5 (2009) pp. 051920-1-051920-3. – reference: Okubo, H., Tadokoro, C., Sumi, T., Tanaka, N., Sasaki, S., Wear acceleration mechanism of diamond-like carbon (DLC) films lubricated with MoDTC solution: Roles of tribofilm formation and structural transformation in wear acceleration of DLC films lubricated with MoDTC solution, Tribology International, Vol. 133 (2019b) pp. 271-287. – reference: Okubo, H. and Sasaki, S., Frequency-Modulation Atomic Force Microscopic Observation for Ultralow Frictional Solid–Liquid Interface of Diamond-Like Carbon in an Environmentally Friendly Oil. Tribology Letter, Vol. 67, Mo. 3 (2019a) – reference: Lahouij, I., Dassenoy, F., de Knoop, L., Martin, J.M. and Vacher, B., In situ TEM observation of the behavior of an individual fullerene-like MoS2 nanoparticle in a dynamic contact, Tribology Letter, Vol. 42 (2011), pp. 133–140. – reference: Hirata, A., Igarashi, M. and Kaito, T, Study on solid lubricant properties of carbon onions produced by heat treatment of diamond clusters or particles, Tribology International, Vol. 37 (2004) pp. 899-905. – reference: Kano, M., Superlow friction of DLC applied to engine camfollower lubricated with ester-containing oil, Tribology International, Vol. 39 (2006) pp. 1682–1685. – reference: Obraztsova, E.D., Fujii, M., Hayashi, S., Kuznetsov, V.L., Butenko, Yu.V. and Chuvilin, A.L., Raman identification of onion-like carbon, Carbon, Vol. 36 (1998) pp. 821-826. – reference: Sugimoto, I., Honda, F. and Inoue, K., Analysis of wear behavior and graphitization of hydrogenated DLC under boundary lubricant with MoDTC, Wear, Vol. 305 (2013) pp. 124–128. – reference: Sugimoto, I., Mechanism on specific wear of DLC film in engine oil with Mo-DTC, Transactions of the Japan Society of Mechanical Engineers Series A, Vol. 78 (2012) pp. 213–222. – reference: Kosarieh, S., Morina, A., Laine, E., Flemming, J. and Neville, A., Wear mechanisms of hydrogenated DLC in oils containing MoDTC, Tribology letter, Vol. 64, No. 4 (2016) pp. 1-17. – reference: Topolovec-Miklozic, K., Lockwood, F. and Spikes, H., Behaviour of boundary lubricating additives on DLC coatings, Wear, Vol. 265 (2008) pp. 1893–1901. – reference: Jia, Z., Wang, P., Xia, Y., Zhang, H., Pang, X. and Li, B., Tribological behaviors of diamond-like carbon coatings on plasma nitrided steel using three BN-containing lubricants, Applied Surface Science, Vol. 255, No. 13-14 (2009) pp. 6666-6674. – reference: Cizaire, L., Vacher, B., Le Mogne, T., Martin, J.M., Rapoport, L., Margolin, A. and Tenne, R., Mechanisms of ultra-low friction by hollow inorganic fullerene-like MoS2 nanoparticles, Surface and Coatings Technology, Vol. 160 (2002) pp. 282–287. – reference: Joly-Pottuz, L., Vacher, B., Ohmae, N., Martin, J. M., and Epicier, T., Anti-wear and Friction Reducing Mechanisms of Carbon Nano-onions as Lubricant Additives, Tribology Letter, Vol. 30, (2008) pp. 69–80. – reference: Spikes, H., Friction Modifier Additives. Tribolgy Letter, Vol. 60, No. 5 (2015). – reference: Tevet, O., Von-Huth, P., Popovitz-Biro, R., Rosentsveig, R., Wagner, H.D. and Tenne, R., Friction mechanism of individual multilayered nanoparticles, Proceedings of the National Academy of Sciences of the United States of America, Vol. 108, pp. 19901–19906 (2011). – reference: Shinyoshi, T., Fuwa, Y. and Ozaki, Y., Wear analysis of DLC coating in oil containing Mo-DTC, SAE International Technical papers, No. 2007-01-1969 (2007) pp. 956-960. – reference: Nakao, S., Fitting Function Effects on Peak Separation of Diamond-like Carbon Films’ Raman Spectra, Journal of The Surface Finishing Society of Japan, Vol. 60, No. 1 (2009) pp. 48-55 (in Japanese). – reference: Kassim, K.A.M., Tokoroyama, T., Murashima, M., Umehara, N., The wear classification of MoDTC-derived particles on silicon and hydrogenated diamond-like carbon at room temperature, Tribology International, Vol. 147 (2020) pp. 1-12. – reference: Joly-Pottuz, L., Dassenoy, F., Belin, M., Vacher, B., Martin, J.M. and Fleischer, N., Ultra-low friction and wear properties of IFWS2 under boundary lubrication, Tribology Letter, Vol. 18 (2005) pp. 477–485. – reference: Kosarieh, S., Morina, A., Laine, E., Flemming, J. and Neville, A., The effect of MoDTC-type friction modifier on the wear performance of a hydrogenated DLC coating, Wear, Vol. 302 (2013) pp. 890–898. – reference: Holmberg, K., Andersson, P. and Erdemir, A., Global energy consumption due to friction in passenger cars, Tribology International, Vol. 47 (2012), pp. 221–234. – reference: Matsumoto, N., Mistry, K. K., Kim, J-H., Eryilmaz, O.L., Erdemir, A., Kinoshita, H., and Ohmae, N., Friction reducing properties of onion-like carbon based lubricant under high contact pressure, Tribology - Materials, Surfaces & Interfaces, Vol. 6, No. 3(2012) pp. 116-120, DOI: 10.1179/1751584X12Y.0000000014 – reference: Vengudusamy, B., Green, JH., Lamb, G.D. and Spikes, HA., Influence of hydrogen and tungsten concentration on the tribological properties of DLC/DLC contacts with ZDDP, Wear, Vol. 298-299 (2013) pp. 109–119. – reference: Ferrari, A. C. and Robertson, J., Interpretation of Raman spectra of disordered and amorphous carbon, Physical Review B, Vol. 61 No. 20 (2000) pp. 95-107. – reference: Vengudusamy, B., Green, JH., Lamb, G.D. and Spikes, HA., Tribological properties of tribofilms formed from ZDDP in DLC/DLC and DLC/steel contacts, Tribology International, Vol. 44 (2011) pp. 165–174. – reference: Gahlin, R., Larsson, M. and Hedenqvist, P., ME-C:H coatings in motor vehicles, Wear, Vol. 249 (2001) pp. 302–309. – reference: Okubo, H. and Sasaki, S., In situ Raman observation of structural transformation of diamond-like carbon films lubricated with MoDTC solution: Mechanism of wear acceleration of DLC films lubricated with MoDTC solution, Tribology International, Vol. 113 (2017) pp. 399-410 doi.org/10.1016/j.triboint.2016.10.009. |
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| Title | a-C:H DLC膜の潤滑性能に及ぼす多層フラーレン粒子の効果 |
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