dhesive characteristics of coatings and methods for measuring them
Keywords:
coating; adhesion; detachment; scratching; nanoindentation
Abstract
The paper presents the analysis of information flows for 1980 to 2009, relying on the MSCI, INIS and Inspec Databases related to the investigations into the bond strength of coatings to the substrate and the methods of adhesion strength measurement. The analysis shows the method of coating separation from the substrate and the scratching method to be the basic methods applied for determining adhesion. About 70% of applications fall on the scratching method. The highest adhesion strengths were obtained when the coatings were deposited from the vacuum arc discharge plasma with a preliminary cleaning of substrate surfaces by high-energy ions of the material deposited (310 MeV for nickel films on kovar substrates).
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References
Покрытия металлические и неметаллические, неорганические. Методы контроля. ГОСТ 9.302-88.
Гринченко В.Т., Капралова Н.А., Кудряшев Н.И., Левин А.М. Нанесение металлических пленок на подложки из различных материалов вакуумным плазменно-дуговым методом, неорганические материалы//Рос. Ак. Наук. – 1992. – Т. 28, № 8. – С. 1630-1634.
Schmidbauer S., Hahn J., Richter F. Adhesion of metal coatings on ceramics deposited by different techniques //Surface and Coatings Technology. – 1993. – Vol. 59. – P. 325-329.
Piekoszenwski J., Krajewski A. et all. Brazing of alumina ceramics modified by pulsed plasma beams combined with arc PVD treatment//Vacuum. – 2003. – Vol. 70. – P. 307-312.
Sheng Zhu, W. Wlosinski. Joining of AlN ceramic to metals usings sputtered Al or Ti films// Journal of Materials Processing Technology. – 2001. – Vol. 109. – P. 277-282.
Shoji Noda, Haruo Doi, Osami Kamigaito. Metal-ceramic surface composites formed by a high energy ion irradiation and their mechanical properties//Radiat. Phys. Chem. – 1987. – Vol. 30, Iss 4. – P. 253-261.
Shoji Noda, Haruo Doi et all. Impovement for adhesion of thin metal films on ceramics by ion bombardment and application to metal-ceramic joining//Journal of materials science letters. – 1986. – Vol. 5. – P.381-383.
Wang Y.H., Wang H.X. et all. Brazing of Ti/Nicoated Diamond//Key Engineering Materials Vols. – 2001. – Vol. 202-203. – P. 147-150.
Sokolov V.K., Yu.M. et. all. Adhesion strength of coating of fluoride-reduced tungsten with nickel//Tsvetnye-Metal. Korolev ly-USSR. – 1983, Iss 11. – P. 66-67.
Pershin V., Lufitha M. et. all. Effect of substrate temperature on Adhesion Strength of plasmasprayed nickel coatings//Journal of Thermal Spray Technology. – 2003. – Vol. 12 (3). – P. 370-376.
Костиков В.И., Шестерин Ю.А. и др. Свойства плазменных вольфрамовых покрытий//Физика и химия обработки материалов. – 1982. – № 6. – С. 47-51.
Зимон А.Д. Адгезия пленок и покрытий. – М.: Химия, 1977. – 351 с.
Liao Yi-de, Li Zhuang-yun, Tang Guo-qun. Evaluation for adhesion strength of coating and substrate by burying beforehand specimen//Journal of Wuhan University of Technology Mater Sci Ed. – 2003. – Vol. 18, Iss 1. – P. 31-35.
Демиденко Л. М. Высокоогнеупорные композиционные покрытия. – М.: Металлургия, 1979. – 216 с.
Kikuchi A., Baba S., Kinbara A. Measurements of the adhesion of evaporated metal films. III// Journal of the Vacuum Society of Japan. – 1984. – Vol. 27, Iss 5. – P. 448-451.
Westergard R., Svahn F. et. all. Novel load-carrying layers to support low-friction PVD-coatings//Surface and Coatings technology. – 2003. – Vol. 176, Iss 1. – P. 14-22.
Matyunin V.M., Volkov P.V. et. all. Determination of the mechanical properties and adhesion strength of ion-plasma coatings using sclerometry//Metallovedenie i termicheskaya obrabotka metallov. – 2002. – Iss 3. – P. 36-39.
S perties//Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms.– 2006. – Vol. 251 (2). – P. 402-406.
Yonekura D., Murakami R.I. Influence of ionbombardment on critical load of CrN deposited onto aluminum-alloy by arc ion plating method. P. 1//International Journal of modern Physics. – 2006.– Vol. 20, Iss 25-27, Sp Iss. – P. 3842-3847.
Al-Olayyan Y., Fuchs G., Baney R., Tulenko J. The effect of Zircaloy-4 substrate surface condition on the adhesion strength and corrosion of SiC coatings//Journal of Nuclear Materials. – 2005. – Vol. 346, Iss 2-3. – P. 109-119.
Jyh-Wei Lee, Shih-Kang Tien, Yu-Chu Kuo. The effects of pulse frequency and substrate bias to the mechanical properties of CrN coatings deposited by pulsed DC magnetron sputtering// Thin Solid Films. – 2006. – Vol. 494, Iss 1-2. – P. 161-167.
Youming Liu, Liuhe Li, Xun Cai, Qiulong Chen, Ming Xu, Yawei Hu, Tik-Lam Cheung, Shek C., Paul K. Chu. Effects of pretreatment by ion implantation and interlayer on adhesion between aluminum substrate and TiN film//Thin Solid Films. – 2005. – Vol. 493, Iss 1-2. – P. 152-159.
Gonczy S.T., Randall N. An ASTM standard for quantitative scratch adhesion testing of thin, hard ceramic coatings//J. of Applied Ceramic Technology. – 2005. – Vol. 12, Iss 5. – P. 422-428.
Ichimura H., Ishii Y. Effects of indenter radius on the critical load in scratch testing//Surf. and Coat. Techn. – 2003. – Vol. 165. – P. 1-7.
Suzuki S. Internal stress and adhesion of thin films sputtered onto glass by an in-line sputtering system//Thin Solid Films. – 1999. – Vol. 351. – P. 194-197.
Ektessabi A.M., Sato S., Kitamura H., Masaki Y. Simulation of ion beam assisted deposition-a comparison with experimental results//Vacuum. –1993. – Vol. 44, Iss 3-4. – P. 213-217.
Akira Kinbara, Shigeru Baba, Eiji Kusano. Adhesion measurement of thin films on glass substrates by scratch method//Coatings Glass. – 1999. – P. 218-222.
Benjamin P., Weaver C. Measurement of adhesion of thin films//Proceedings of the Royal Society A.–1960.– Vol. 254, Iss 1277. – P. 163-176.
Hamilton G.M., Goodman L.E. The stress field created by a circular sliding contact//J. Appl. Mech. – 1966. – Vol. 33. – P. 371-376.
Cailler M., Ouis A. et. all. Adhesion strength of copper thin-films to a E24 carbon steel: effect of substrate surface ion bombardment etching// J. Adhesion Sci. Technol. – 1993. – Vol. 7, Iss 2. – P.141-157.
Маслов Е.Н. Теоретические основы процесса царапания металлов. – М.: Наука, 1968. – С. 24-44.
Фукс-Рабинович Г.С., Моисеев В.Ф., Кацура А.А. и др. Использование метода склерометрии для определения адгезионных свойств ионно-плазменных покрытий//Заводская лаборатория. – 1990. – № 2. – С. 95-98.
Akabane T., Sasajima Y., Onuki J. Nanoscratching of metallic thin films on silicon substrate: a molecular dynamics study//J. of Electronic Mater. – 2007. – Vol. 36, Iss 9. – P. 1174-1180.
Arslan E., Baran Ц., Efeoglu I., Totik Y. Evaluation of adhesion and fatigue of MoS2-Nb solid-lubricant films deposited by pulsed-dc magnetron sputtering//Surf. and Coat. Techn. – 2008. – Vol. 202, Iss 11. – P. 2344-2348.
Chua K., Shen Y.G. Mechanical and tribological properties of nanostructured TiN/TiBN multilayer films//Wear. – 2008. – Vol. 265, Iss 3-4. – P. 516-524.
Zhou L.P., Wang M.P., Wang R., Li Z. et. all. Enhanced adhesion of Cu-W thin-films by ionbeam assisting bombardment implanting//Transactions of Nonferrous Metals Society of China. – 2008. – Vol. 18, Iss 2. – P. 372-377.
Головин Ю.И. Наноиндентирование и механические свойства твердых тел в субмикрообъемах, тонких приповерхностных слоях и пленках (обзор)//Физика твердого тела. – 2008. – Т. 5, № 12. – С. 2113-2142.
Burnett P.J., Rickerby D.S. The relationship between hardness and scratch adhesion//Thin Solid Films. – 1987. – Vol. 154, Iss 1-2. – P. 403-416.
TakenoT., Shiota H., Sugawara T., Miki H., Takagi T. Highly adherent tungsten-containing diamond-like carbon (W-DLC) coating on a NiTi shape memory alloy under 10% tensile strain// Diamond and Related Materials. – 2009. – Vol. 18, Iss 2-3. – P. 403-406.
Volinsky A., Moody N., Gerberich W. Interfacial toughness measurements for thin films on substrates//Acta Materialia. – 2002. – Vol. 50, Iss 3. – P. 441-466.
Гринченко В.Т., Капралова Н.А., Кудряшев Н.И., Левин А.М. Нанесение металлических пленок на подложки из различных материалов вакуумным плазменно-дуговым методом, неорганические материалы//Рос. Ак. Наук. – 1992. – Т. 28, № 8. – С. 1630-1634.
Schmidbauer S., Hahn J., Richter F. Adhesion of metal coatings on ceramics deposited by different techniques //Surface and Coatings Technology. – 1993. – Vol. 59. – P. 325-329.
Piekoszenwski J., Krajewski A. et all. Brazing of alumina ceramics modified by pulsed plasma beams combined with arc PVD treatment//Vacuum. – 2003. – Vol. 70. – P. 307-312.
Sheng Zhu, W. Wlosinski. Joining of AlN ceramic to metals usings sputtered Al or Ti films// Journal of Materials Processing Technology. – 2001. – Vol. 109. – P. 277-282.
Shoji Noda, Haruo Doi, Osami Kamigaito. Metal-ceramic surface composites formed by a high energy ion irradiation and their mechanical properties//Radiat. Phys. Chem. – 1987. – Vol. 30, Iss 4. – P. 253-261.
Shoji Noda, Haruo Doi et all. Impovement for adhesion of thin metal films on ceramics by ion bombardment and application to metal-ceramic joining//Journal of materials science letters. – 1986. – Vol. 5. – P.381-383.
Wang Y.H., Wang H.X. et all. Brazing of Ti/Nicoated Diamond//Key Engineering Materials Vols. – 2001. – Vol. 202-203. – P. 147-150.
Sokolov V.K., Yu.M. et. all. Adhesion strength of coating of fluoride-reduced tungsten with nickel//Tsvetnye-Metal. Korolev ly-USSR. – 1983, Iss 11. – P. 66-67.
Pershin V., Lufitha M. et. all. Effect of substrate temperature on Adhesion Strength of plasmasprayed nickel coatings//Journal of Thermal Spray Technology. – 2003. – Vol. 12 (3). – P. 370-376.
Костиков В.И., Шестерин Ю.А. и др. Свойства плазменных вольфрамовых покрытий//Физика и химия обработки материалов. – 1982. – № 6. – С. 47-51.
Зимон А.Д. Адгезия пленок и покрытий. – М.: Химия, 1977. – 351 с.
Liao Yi-de, Li Zhuang-yun, Tang Guo-qun. Evaluation for adhesion strength of coating and substrate by burying beforehand specimen//Journal of Wuhan University of Technology Mater Sci Ed. – 2003. – Vol. 18, Iss 1. – P. 31-35.
Демиденко Л. М. Высокоогнеупорные композиционные покрытия. – М.: Металлургия, 1979. – 216 с.
Kikuchi A., Baba S., Kinbara A. Measurements of the adhesion of evaporated metal films. III// Journal of the Vacuum Society of Japan. – 1984. – Vol. 27, Iss 5. – P. 448-451.
Westergard R., Svahn F. et. all. Novel load-carrying layers to support low-friction PVD-coatings//Surface and Coatings technology. – 2003. – Vol. 176, Iss 1. – P. 14-22.
Matyunin V.M., Volkov P.V. et. all. Determination of the mechanical properties and adhesion strength of ion-plasma coatings using sclerometry//Metallovedenie i termicheskaya obrabotka metallov. – 2002. – Iss 3. – P. 36-39.
S perties//Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms.– 2006. – Vol. 251 (2). – P. 402-406.
Yonekura D., Murakami R.I. Influence of ionbombardment on critical load of CrN deposited onto aluminum-alloy by arc ion plating method. P. 1//International Journal of modern Physics. – 2006.– Vol. 20, Iss 25-27, Sp Iss. – P. 3842-3847.
Al-Olayyan Y., Fuchs G., Baney R., Tulenko J. The effect of Zircaloy-4 substrate surface condition on the adhesion strength and corrosion of SiC coatings//Journal of Nuclear Materials. – 2005. – Vol. 346, Iss 2-3. – P. 109-119.
Jyh-Wei Lee, Shih-Kang Tien, Yu-Chu Kuo. The effects of pulse frequency and substrate bias to the mechanical properties of CrN coatings deposited by pulsed DC magnetron sputtering// Thin Solid Films. – 2006. – Vol. 494, Iss 1-2. – P. 161-167.
Youming Liu, Liuhe Li, Xun Cai, Qiulong Chen, Ming Xu, Yawei Hu, Tik-Lam Cheung, Shek C., Paul K. Chu. Effects of pretreatment by ion implantation and interlayer on adhesion between aluminum substrate and TiN film//Thin Solid Films. – 2005. – Vol. 493, Iss 1-2. – P. 152-159.
Gonczy S.T., Randall N. An ASTM standard for quantitative scratch adhesion testing of thin, hard ceramic coatings//J. of Applied Ceramic Technology. – 2005. – Vol. 12, Iss 5. – P. 422-428.
Ichimura H., Ishii Y. Effects of indenter radius on the critical load in scratch testing//Surf. and Coat. Techn. – 2003. – Vol. 165. – P. 1-7.
Suzuki S. Internal stress and adhesion of thin films sputtered onto glass by an in-line sputtering system//Thin Solid Films. – 1999. – Vol. 351. – P. 194-197.
Ektessabi A.M., Sato S., Kitamura H., Masaki Y. Simulation of ion beam assisted deposition-a comparison with experimental results//Vacuum. –1993. – Vol. 44, Iss 3-4. – P. 213-217.
Akira Kinbara, Shigeru Baba, Eiji Kusano. Adhesion measurement of thin films on glass substrates by scratch method//Coatings Glass. – 1999. – P. 218-222.
Benjamin P., Weaver C. Measurement of adhesion of thin films//Proceedings of the Royal Society A.–1960.– Vol. 254, Iss 1277. – P. 163-176.
Hamilton G.M., Goodman L.E. The stress field created by a circular sliding contact//J. Appl. Mech. – 1966. – Vol. 33. – P. 371-376.
Cailler M., Ouis A. et. all. Adhesion strength of copper thin-films to a E24 carbon steel: effect of substrate surface ion bombardment etching// J. Adhesion Sci. Technol. – 1993. – Vol. 7, Iss 2. – P.141-157.
Маслов Е.Н. Теоретические основы процесса царапания металлов. – М.: Наука, 1968. – С. 24-44.
Фукс-Рабинович Г.С., Моисеев В.Ф., Кацура А.А. и др. Использование метода склерометрии для определения адгезионных свойств ионно-плазменных покрытий//Заводская лаборатория. – 1990. – № 2. – С. 95-98.
Akabane T., Sasajima Y., Onuki J. Nanoscratching of metallic thin films on silicon substrate: a molecular dynamics study//J. of Electronic Mater. – 2007. – Vol. 36, Iss 9. – P. 1174-1180.
Arslan E., Baran Ц., Efeoglu I., Totik Y. Evaluation of adhesion and fatigue of MoS2-Nb solid-lubricant films deposited by pulsed-dc magnetron sputtering//Surf. and Coat. Techn. – 2008. – Vol. 202, Iss 11. – P. 2344-2348.
Chua K., Shen Y.G. Mechanical and tribological properties of nanostructured TiN/TiBN multilayer films//Wear. – 2008. – Vol. 265, Iss 3-4. – P. 516-524.
Zhou L.P., Wang M.P., Wang R., Li Z. et. all. Enhanced adhesion of Cu-W thin-films by ionbeam assisting bombardment implanting//Transactions of Nonferrous Metals Society of China. – 2008. – Vol. 18, Iss 2. – P. 372-377.
Головин Ю.И. Наноиндентирование и механические свойства твердых тел в субмикрообъемах, тонких приповерхностных слоях и пленках (обзор)//Физика твердого тела. – 2008. – Т. 5, № 12. – С. 2113-2142.
Burnett P.J., Rickerby D.S. The relationship between hardness and scratch adhesion//Thin Solid Films. – 1987. – Vol. 154, Iss 1-2. – P. 403-416.
TakenoT., Shiota H., Sugawara T., Miki H., Takagi T. Highly adherent tungsten-containing diamond-like carbon (W-DLC) coating on a NiTi shape memory alloy under 10% tensile strain// Diamond and Related Materials. – 2009. – Vol. 18, Iss 2-3. – P. 403-406.
Volinsky A., Moody N., Gerberich W. Interfacial toughness measurements for thin films on substrates//Acta Materialia. – 2002. – Vol. 50, Iss 3. – P. 441-466.
Published
2010-02-26
How to Cite
Лунёв, В. М., & Немашкало, О. В. (2010). dhesive characteristics of coatings and methods for measuring them. Journal of Surface Physics and Engineering, 8(1), 64 - 71. Retrieved from https://periodicals.karazin.ua/pse/article/view/11940
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