Environmentally friendly material: Hexagonal boron nitride
Yıl 2016,
Cilt: 1 Sayı: 2, 66 - 73, 09.09.2016
Dr.Nuran Ay
,
Gökçe Mehmet Ay
Yapıncak Göncü
,
Gökçe Mehmet Ay
Yapıncak Göncü
Öz
Environmental issue have become very important year by year and several summit have been held on this subject globally. As a result, research efforts have been focused on environmentally friendly materials, reducing energy usage and emissions. Hexagonal boron nitride (hBN) shows superior lubrication and has no sticking properties because of the structure of strong bonds between atoms in layers with the weak Van Der Walls bonds between layers. Also, hBN is an inorganic artificial material with high heat shock resistance, heat conduction, electrical insulation, chemical stability properties. These properties enable it to be used at various applications. In this study, friction and wear behaviors of products containing hBN were reviewed, in order to see effects on sustainable environment.
Kaynakça
- http://www.un.org/apps/news/story.asp?NewsID=51526#.VrG8IU1f0uU
- Apelian D., Looking Beyond the Last 50 Years: The Future of Materials Science and Engineering, JOM, 65-75, 2007.
- Rödel J., Kounga, A.B.D., Weissenberger-Eibl, E., Koch, D., Bierwisch, A., Rossner, W., Hoffmann, M.J., Danzer, R., Schneider, G., Development of a roadmap for advanced ceramics: 2010-2025, Journal of ECERS, 1549-15604, 2009.
- http://www.nanowerk.com/spotlight/spotid=16047.php
- Lansdown A.R., Lubrication and Lubricant Selection A Practical Guide Third Edition, London and Bury St Edmunds, UK, 2004.
- Tung S.C., McMillan, M.L.,Automotive Tribology Overview of Currrent Advances and Challenges forThe Future, Tribology .International, 37, 517-536, 2004.
- Booser E. R., CRC Handbook of Lubrication, Theory and Practice of Tribology, Volume II: Theory and Design, CRC press, 1988.
- http://energy.gov/sites/prod/files/2013/11/f4/nanoparticulate-based_lubrication.pdf, 2016
- Kenneth H., Andersson, P., Erdemir, A., Global energy consumption due to friction in passenger cars, Tribology International 47, 221–234, 2012.
- Lansdown A.R., Molybdenum Disulphide Lubrication, Swansea UK, 1999.
- Mang T. and Dresel W., Lubricants and Lubrication Second, Completely Revised and Extended Edition, Weinheim Almanya, 2007.
- Sotres, J., Arnebrant, T. Experimental Investigations of Biological Lubrication at the Nanoscale: The Cases of Synovial Joints and the Oral Cavity, Lubricants, 1, 102-131, 2013,.
- Jamaludin N., Mba, D., Bannister, R. H. Monitoring the Lubricant Condition in a Low-Speed Rolling Element Bearing Using High Frequency Stress Waves, Proceedings of the Institution of Mechanical Engineers Part E-Journal of Process Mechanical Engineering 216 (2), 73-88, 2002.
- Xu J., Wang F., Liu Z. L., Investigation of the Tribology Behaviors of Auto-restoration Additive under Heavy Loading Conditions, Surface Review and Letters 14(2), 329-334, 2007.
- Benz M., Chen N. H., Israelachvili J., Lubrication and Wear Properties of Grafted Polyelectrolytes, Hyaluronan and Hylan, Measured in the Surface Forces Apparatus, Journal of Biomedical Materials Research Part A 71A(1), 6-15, 2004.
- Kumar P., Oka M., Toguchida J., Kobayashi M., Uchida E., Nakamura T., and Tanaka K., Role of Uppermost Superficial Surface Layer of Articular Cartilage in the Lubrication Mechanism of Joints, Journal of Anatomy 199, 241-250, 2001.
- Oates K. M. N., Krause W. E., Jones R. L., and Colby R. H., Rheopexy of Synovial Fluid and Protein Aggregation, Journal of the Royal Society Interface 3(6), 167-174, 2006.
- Jiang B. C. and Liu P. P., Natural Lubrication and Wear of Textile Spinning Rings, Tribology Transactions 34(3), 369-374, 1991.
- Hu Y. Z. and Granick S., Microscopic Study of Thin Film Lubrication and Its Contributions to Macroscopic Tribology, Tribology Letters 5(1), 81-88, 1998.
- Liang J., Investigation of Synthetic and Natural Lubricants, PhD Thesis, NCSU USA, 2008.
- Pirro D.M., Wessol A.A., Lubrication Fundamentals Second Edition Revised and Expanded, New York, 2001.
- Totten G.E., Handbook of Lubrication and Tribology Volume I Second Edition, USA, 1-9, 2006.
- Ludema K.C., Friction, Wear, Lubrication, USA, 1996.
- Scharf ,T. W., Prasad, S. V. Solid lubricants: a review, J.Mater Sci 48, 511–531, 2013.
- Prabhu , T.R. , Effects of solid lubricants, load, and sliding speed on the tribological
- behavior of silica reinforced composites using design of experiments, Materials and Design, 77, 149–160, 2015.
- Cho,D.H., Kim, J.S., Kwon, S.H., Lee, C., Lee, Y.Z., Wear, 302, 981–986, 2013.
- Kumari, S., Sharma, O.P., Gusain,R., Mungse, H.P., Kukrety, A.K., Kumar, N., Sugimura, H., Khatri, O.P:, Alkyl-Chain-Grafted Hexagonal Boron Nitride Nanoplatelets as Oil-Dispersible Additives for Friction and Wear Reduction, ACS Appl. Mater. Interfaces, 7, 3708−3716, 2015.
- Deepika, Li, L.H., Glushenkov, A.M., Hait, S:K., Hodgson, P., Chen, Y., High-Efficient Production of Boron Nitride Nanosheets via an Optimized Ball Milling Process for Lubrication in Oil, Conferance Proceeding, ACSMS2014, Scientific Reports 4, 7288, 1-6, 2014.
- Haubner R., Wilhelm M., Weissenbacher R., Lux B., Boron Nitrides –Properties Synthesis and Applications, Springer-Verlag, Berlin, 2002.
- Paine R.T., Narula C.K., Synthetic routes to boron nitride, Chem. Rev. 90, 73–91, 1990.
- Kempfer L., The many faces of boron nitride, Mater. Eng. 107, 41–44, 1990.
- Rudolph S., ‘Materials Review: Boron Nitride’, American Ceramic Society Bulletin, August , 81, 8, 34 -35, 2002.
- Naftaly M., Leist J., Dudley R., Investigation of ceramic boron nitride by terahertz time-domain spectroscopy, Journal of the European Ceramic Society, 30, 2691-2697, 2010.
- V. Siklitsky, Boron Nitride, http://www.ioffe.rssi.ru/SVA/NSM/Semicond/BN/index.html,2010.
- Kimura Y., Wakabayashi T., Okada K., Wada T., Nishikawa H., Boron nitride as a lubricant additive, Wear, 232, 199-206, 1999.
- Engler M., Lesniak C., Damasch R., Ruisinger B., Eichler J., Hexagonal Boron Nitride (hBN) – Applications from Metallurgy to Cosmetics, ACM of German Ceramic Society, Dresden, 2007.
- http://www.substech.com/dokuwiki/doku.php?id=boron_nitride_as_solid_lubricant
- Greim J., Schwetz K.A., Boron Carbide, Boron Nitride and Metal Borides, Ullmann's Encyclopedia of Industrial Chemistry, Weinheim, 2005.
- http://www.boronmax.com/tr_raporlar.asp,2016
- Abdullah, M.I.H.C., Abdollah, M.F.B., Amiruddin, H., Nuri, N.R.M, Optimized Nanolubricant for Friction Reduction, 40th Leeds-Lyon Symposium on Tribology & Tribochemistry Forum, 54, 2013.
- Reeves, C.J, Menezes, P.J, Lovell, M.L., Jen, T.C., The Size Effect of Boron Nitride Particles on the Tribological Performance of Biolubricants for Energy Conservation and Sustainability, Tribol. Lett., 51,437–452, 2013
- Çelik , O. N., Ay, N., Göncü, Y., Effect of Nano Hexagonal Boron Nitride Lubricant
- Additives on the Friction and Wear Properties of AISI 4140 Steel, Particulate Science and Technology, 31, 501–506, 2013.
- Abdullah, M.I.H.C., Abdollah, M.F.B., Amiruddin, H., Tamaldin N., Nuri, N.R.M., Effect of hBN/Al2O3 Nanoparticle Additives on the Tribological Performance of Engine Oil , Jurnal Teknologi, 66,3, 1–6, 2014.
- Abdollah, M.F.B.,, Abdullah, M.I.H.C., Amiruddin, H., Tamaldin, N., Rashid, M.N.N., The hBN Nanoparticles as an Effective Additive in Engine Oil to Enhance the Durability and Performance of a Small Diesel Engine. In: Proceedings of 41th Leeds-Lyon Symposium on Tribology, United Kingdom, 2014.
- Abdullah, M.I.H.C., Abdollah, M.F.B., Amiruddin, H., Nuri, N.R.M, The potential of hBN nanoparticles as friction modifier and antiwear additive in engine oil, Mechanics & Industry 17, 104, 2016.
- Wan, Q., Jina, Yi, Suna, P., Dinga, Y., Tribological behaviour of a lubricant oil containing boron nitride Nanoparticles, Procedia Engineering, 102, 1038 – 1045, 2015.
- Baş, H., Karabacak, Y.E., Investigation of the Effects of Boron Additives on the Performance of Engine Oil, Tribology Transactions, 57: 740-748, 2014.
- Podgornik, B, Kosec, T., Kocijan, A., Donik, C., Tribological behavior and lubrication performance of hexagonal boron nitride (h-BN) as a replacement for graphite in aluminium forming, Tribology International, 81, 267–275, 2015.
- Wen, M. Y., Guo, P., Hui J. D., Hui, Z. M., Geng, F., The effect of additives on tribological behaviours in polyurea grease, Materials Research Innovations, 19 , 5, 596-599, 2015.
- Greco, A., Mistry, K., Sista, V., Eryilmaz, O., Erdemir, A., Friction and wear behaviour of boron based surface treatment and nano-particle lubricant additives for wind turbine gearbox applications, Wear, 271, 1754– 1760, 2011.
Yıl 2016,
Cilt: 1 Sayı: 2, 66 - 73, 09.09.2016
Dr.Nuran Ay
,
Gökçe Mehmet Ay
Yapıncak Göncü
,
Gökçe Mehmet Ay
Yapıncak Göncü
Kaynakça
- http://www.un.org/apps/news/story.asp?NewsID=51526#.VrG8IU1f0uU
- Apelian D., Looking Beyond the Last 50 Years: The Future of Materials Science and Engineering, JOM, 65-75, 2007.
- Rödel J., Kounga, A.B.D., Weissenberger-Eibl, E., Koch, D., Bierwisch, A., Rossner, W., Hoffmann, M.J., Danzer, R., Schneider, G., Development of a roadmap for advanced ceramics: 2010-2025, Journal of ECERS, 1549-15604, 2009.
- http://www.nanowerk.com/spotlight/spotid=16047.php
- Lansdown A.R., Lubrication and Lubricant Selection A Practical Guide Third Edition, London and Bury St Edmunds, UK, 2004.
- Tung S.C., McMillan, M.L.,Automotive Tribology Overview of Currrent Advances and Challenges forThe Future, Tribology .International, 37, 517-536, 2004.
- Booser E. R., CRC Handbook of Lubrication, Theory and Practice of Tribology, Volume II: Theory and Design, CRC press, 1988.
- http://energy.gov/sites/prod/files/2013/11/f4/nanoparticulate-based_lubrication.pdf, 2016
- Kenneth H., Andersson, P., Erdemir, A., Global energy consumption due to friction in passenger cars, Tribology International 47, 221–234, 2012.
- Lansdown A.R., Molybdenum Disulphide Lubrication, Swansea UK, 1999.
- Mang T. and Dresel W., Lubricants and Lubrication Second, Completely Revised and Extended Edition, Weinheim Almanya, 2007.
- Sotres, J., Arnebrant, T. Experimental Investigations of Biological Lubrication at the Nanoscale: The Cases of Synovial Joints and the Oral Cavity, Lubricants, 1, 102-131, 2013,.
- Jamaludin N., Mba, D., Bannister, R. H. Monitoring the Lubricant Condition in a Low-Speed Rolling Element Bearing Using High Frequency Stress Waves, Proceedings of the Institution of Mechanical Engineers Part E-Journal of Process Mechanical Engineering 216 (2), 73-88, 2002.
- Xu J., Wang F., Liu Z. L., Investigation of the Tribology Behaviors of Auto-restoration Additive under Heavy Loading Conditions, Surface Review and Letters 14(2), 329-334, 2007.
- Benz M., Chen N. H., Israelachvili J., Lubrication and Wear Properties of Grafted Polyelectrolytes, Hyaluronan and Hylan, Measured in the Surface Forces Apparatus, Journal of Biomedical Materials Research Part A 71A(1), 6-15, 2004.
- Kumar P., Oka M., Toguchida J., Kobayashi M., Uchida E., Nakamura T., and Tanaka K., Role of Uppermost Superficial Surface Layer of Articular Cartilage in the Lubrication Mechanism of Joints, Journal of Anatomy 199, 241-250, 2001.
- Oates K. M. N., Krause W. E., Jones R. L., and Colby R. H., Rheopexy of Synovial Fluid and Protein Aggregation, Journal of the Royal Society Interface 3(6), 167-174, 2006.
- Jiang B. C. and Liu P. P., Natural Lubrication and Wear of Textile Spinning Rings, Tribology Transactions 34(3), 369-374, 1991.
- Hu Y. Z. and Granick S., Microscopic Study of Thin Film Lubrication and Its Contributions to Macroscopic Tribology, Tribology Letters 5(1), 81-88, 1998.
- Liang J., Investigation of Synthetic and Natural Lubricants, PhD Thesis, NCSU USA, 2008.
- Pirro D.M., Wessol A.A., Lubrication Fundamentals Second Edition Revised and Expanded, New York, 2001.
- Totten G.E., Handbook of Lubrication and Tribology Volume I Second Edition, USA, 1-9, 2006.
- Ludema K.C., Friction, Wear, Lubrication, USA, 1996.
- Scharf ,T. W., Prasad, S. V. Solid lubricants: a review, J.Mater Sci 48, 511–531, 2013.
- Prabhu , T.R. , Effects of solid lubricants, load, and sliding speed on the tribological
- behavior of silica reinforced composites using design of experiments, Materials and Design, 77, 149–160, 2015.
- Cho,D.H., Kim, J.S., Kwon, S.H., Lee, C., Lee, Y.Z., Wear, 302, 981–986, 2013.
- Kumari, S., Sharma, O.P., Gusain,R., Mungse, H.P., Kukrety, A.K., Kumar, N., Sugimura, H., Khatri, O.P:, Alkyl-Chain-Grafted Hexagonal Boron Nitride Nanoplatelets as Oil-Dispersible Additives for Friction and Wear Reduction, ACS Appl. Mater. Interfaces, 7, 3708−3716, 2015.
- Deepika, Li, L.H., Glushenkov, A.M., Hait, S:K., Hodgson, P., Chen, Y., High-Efficient Production of Boron Nitride Nanosheets via an Optimized Ball Milling Process for Lubrication in Oil, Conferance Proceeding, ACSMS2014, Scientific Reports 4, 7288, 1-6, 2014.
- Haubner R., Wilhelm M., Weissenbacher R., Lux B., Boron Nitrides –Properties Synthesis and Applications, Springer-Verlag, Berlin, 2002.
- Paine R.T., Narula C.K., Synthetic routes to boron nitride, Chem. Rev. 90, 73–91, 1990.
- Kempfer L., The many faces of boron nitride, Mater. Eng. 107, 41–44, 1990.
- Rudolph S., ‘Materials Review: Boron Nitride’, American Ceramic Society Bulletin, August , 81, 8, 34 -35, 2002.
- Naftaly M., Leist J., Dudley R., Investigation of ceramic boron nitride by terahertz time-domain spectroscopy, Journal of the European Ceramic Society, 30, 2691-2697, 2010.
- V. Siklitsky, Boron Nitride, http://www.ioffe.rssi.ru/SVA/NSM/Semicond/BN/index.html,2010.
- Kimura Y., Wakabayashi T., Okada K., Wada T., Nishikawa H., Boron nitride as a lubricant additive, Wear, 232, 199-206, 1999.
- Engler M., Lesniak C., Damasch R., Ruisinger B., Eichler J., Hexagonal Boron Nitride (hBN) – Applications from Metallurgy to Cosmetics, ACM of German Ceramic Society, Dresden, 2007.
- http://www.substech.com/dokuwiki/doku.php?id=boron_nitride_as_solid_lubricant
- Greim J., Schwetz K.A., Boron Carbide, Boron Nitride and Metal Borides, Ullmann's Encyclopedia of Industrial Chemistry, Weinheim, 2005.
- http://www.boronmax.com/tr_raporlar.asp,2016
- Abdullah, M.I.H.C., Abdollah, M.F.B., Amiruddin, H., Nuri, N.R.M, Optimized Nanolubricant for Friction Reduction, 40th Leeds-Lyon Symposium on Tribology & Tribochemistry Forum, 54, 2013.
- Reeves, C.J, Menezes, P.J, Lovell, M.L., Jen, T.C., The Size Effect of Boron Nitride Particles on the Tribological Performance of Biolubricants for Energy Conservation and Sustainability, Tribol. Lett., 51,437–452, 2013
- Çelik , O. N., Ay, N., Göncü, Y., Effect of Nano Hexagonal Boron Nitride Lubricant
- Additives on the Friction and Wear Properties of AISI 4140 Steel, Particulate Science and Technology, 31, 501–506, 2013.
- Abdullah, M.I.H.C., Abdollah, M.F.B., Amiruddin, H., Tamaldin N., Nuri, N.R.M., Effect of hBN/Al2O3 Nanoparticle Additives on the Tribological Performance of Engine Oil , Jurnal Teknologi, 66,3, 1–6, 2014.
- Abdollah, M.F.B.,, Abdullah, M.I.H.C., Amiruddin, H., Tamaldin, N., Rashid, M.N.N., The hBN Nanoparticles as an Effective Additive in Engine Oil to Enhance the Durability and Performance of a Small Diesel Engine. In: Proceedings of 41th Leeds-Lyon Symposium on Tribology, United Kingdom, 2014.
- Abdullah, M.I.H.C., Abdollah, M.F.B., Amiruddin, H., Nuri, N.R.M, The potential of hBN nanoparticles as friction modifier and antiwear additive in engine oil, Mechanics & Industry 17, 104, 2016.
- Wan, Q., Jina, Yi, Suna, P., Dinga, Y., Tribological behaviour of a lubricant oil containing boron nitride Nanoparticles, Procedia Engineering, 102, 1038 – 1045, 2015.
- Baş, H., Karabacak, Y.E., Investigation of the Effects of Boron Additives on the Performance of Engine Oil, Tribology Transactions, 57: 740-748, 2014.
- Podgornik, B, Kosec, T., Kocijan, A., Donik, C., Tribological behavior and lubrication performance of hexagonal boron nitride (h-BN) as a replacement for graphite in aluminium forming, Tribology International, 81, 267–275, 2015.
- Wen, M. Y., Guo, P., Hui J. D., Hui, Z. M., Geng, F., The effect of additives on tribological behaviours in polyurea grease, Materials Research Innovations, 19 , 5, 596-599, 2015.
- Greco, A., Mistry, K., Sista, V., Eryilmaz, O., Erdemir, A., Friction and wear behaviour of boron based surface treatment and nano-particle lubricant additives for wind turbine gearbox applications, Wear, 271, 1754– 1760, 2011.