Отримання і фізико-механічні властивості оксидно-силіцидних покриттів на молібдені
Ключові слова:
молібден, покриття, дисиліцид, окислення, діоксид кремнію, мікроструктура, склерометрія
Анотація
У роботі проаналізовано інформацію про окислення дисиліциду молібдену. Проведено аналіз впливу структурно-фазового стану силіциду на окислення. Експериментально отримані окислені зразки молібдену з дисиліцидним покриттям. Проведено дослідження властивостей шаруватої оксидно-силіцидної системи.
Завантаження
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Посилання
Strong A. Brent. Fundamentals of Composites Manufacturing: Materials, Methods and Applications. – Dearborn, Michigan: Society of manufacturing engineers, 2008. – 620 р.
Azarеnkov M.O., Beresnєv V.M., Litovchenko S.V. ta іn. Funkcіonal’nі materіali і pokrittya : navchal’nij posіbnik. – Harkіv: HNU іmenі V.N. Karazіna, 2013. – 208 s.
Shatinskij, V.F., Nesterenko A.I. Zaschitnye diffuzionnye pokrytiya. – K.: Naukova dumka, 1988. – 272 s.
Samsonov G.V., Dvorina L.A., Rud’ B.M. Silicidy. – M.: Metallurgiya, 1979. – 271 s.
Milne John E. Molybdenum Disilicide as an Appliance Heating Element//JOM. – 1987. – Vol. 39. – Is. 2. – Р. 62.
Nechiporenko E.P., Petrichenko A.P., Pavlenko Yu.B., Litovchenko S.V. Silicidnye pokrytiya
na molibdene//Izvestiya AN SSSR. ser. “Neorganicheskie materialy”. – 1988. – № 10. – S. 1739-1741.
Zmij V.I., Ruden’kij S.G. Reakcionno-aktivirovannaya diffuziya i vakuumnye pokrytiya. Har’kov: NNC HFTI, 2010. – S. 79-94.
Fitzer E., Matthias K., Wild K. Oxidationskinetik von NbSi2 und MoSi2 bei hohen Temperaturen //Angewandte Chemie.– 1969.– Vol. 81.– Is. 22. Р. 932-933.
Fitzer E. Warmfeste und Korrosionsbest@ndige Sinterwerkstoffe//2 Plansee Seminar, Reutte, Tirol/Ed. F. Benesovsky. – Vienna: Springer. – 1956. – P. 56.
Ivanov V.E., Nechiporenko E.P., Zmij V.I. i dr. Issledovanie kinetiki okisleniya disilicida molibdena v intervale 1500 – 1800 °C//Izvestiya AN SSSR. ser. “Neorganicheskie materialy”. – 1965. – № 8. – S.1354-1357.
Niu Yaran, Xiaoai Fei, Hongyan Wang, Xuebin Zheng, Chuanxian Ding Microstructure Characteristics and Oxidation Behavior of Molybdenum Disilicide Coatings Prepared by Vacuum Plasma Spraying//Journal of Thermal Spray Technology. – 2013. – Vol. 22. – Iss. 2-3. – P. 96-103.
Chang Y.A. Oxidation of Molybdenum Disilicide //Journal of Materials Science. – 1969. – № 4. – P. 641-643
Yuntian T. Zhu, Li Shu, Darryl Butt P. Kinetics and Products of Molybdenum Disilicide Powder Oxidation//J. Am. Ceram. Soc.– 2002. – Vol. 85. – № 2. – P. 507-509.
Kazuya Kurokawa, Akira Yamauchi. Classification of Oxidation Behavior of Disilicides//Solid State Phenomena. – 2007. – Vol. 127. – P. 227-232.
Byalobzheskij A.V., Cirlin M.S., Krasilov B.I. Vysokotemperaturnaya korroziya i zashita sverhtugoplavkih metallov. – M.: Atomizdat, 1977. – S. 126.
MagnJli A., Andersson G., Blomberg B., Kihlborg L. Identiыcation of Molybdenum and Tungsten//Analytical Chemistry, 1952. – Vol. 24. – P. 1998-2000.
Lee Kyung-Hwan, Jin-Kook Yoon, Gyeung-Ho Kim, Jung-Mann Doh, Kyung-Tae Hong, WooYoung Yoon. Growth behavior and microstructure of oxide scale formed on MoSi2 coating at 773K //J. of Materials Research. – 2004. – Vol. 19. – Iss. 10. – Р. 3009-3018.
Meschter P.J., Low-temperature oxidation of molybdenum disilicide//Metallurgical Transactions A.– 1992.– Vol. 23. – Iss. 6. – Р. 1763-1772.
Wirkus C.D., Wilder D.R. High-Temperature Oxidation of Molybdenum Disilicide//J. of the American Ceramic Society. – Vol. 49. Is. 4. – Р. 173-177.
Westbrook J.H., Wood D.L. “PEST” degradation in beryllides, silicides, aluminides, and related compounds//J. of Nuclear Materials. – 1964. – Vol. 12. Iss. 2. – P. 208-215.
Bartlett R.W., McCamont J.W., Gage P.R. Structure and Chemistry of Oxide Films Thermally Grown on Molybdenum Silicides//J. of the American Ceramic Society. – 1965. – Vol. 48. – Iss. 11. – P. 551-558.
Melsheimer S., Fietzek M., Kolarik V., A Rahmel., Schutze M. Oxidation of the Intermetallic MoSi2 and TiSi2-A Comparison//Oxidation of Metals. – 1997. – Vol. 47. – Р. 139-203.
Zhu Y.T., Stans M., Conzone S.D., Butt D.P. Thermal Oxidation Kinetics of MoSi2-Based Powders//J. of the American Ceramic Society. 1999. – Vol. 82. – P. 2785-2790.
Wakita A.S., Sigmon T.W., Gibbons J.F. Oxidation Kinetics of Laser Formed MoSi2 on Polycrystalline Silicon//J. of Applied Physics. – 1983. – Vol. 54. – P. 2711-2715.
Mochizuki T., Kashiwagi M. Characterization of Thin Film Molybdenum Silicide Oxide.
Berkowitz-Mattuck J.B., Dils R.R. High Temperature Oxidation II. Molybdenum Silicides// Journal of The Electrochemical Society. – 1965. – Vol. 112. – P. 583-589.
Azarenkov N.A., Sobol’ O.V., Beresnev V.M. i dr. Materialovedenie neravnovesnogo sostoyaniya modificirovannoj poverhnosti. Monografiya. – Sumy: Sumskoj gosudarstvennyj universitet, 2012. – 683 s.
Svechnikov V.N., Kocherzhinskij Yu.A., Yupko L.M. Diagramma sostoyaniya sistemy molibden-kremnij//Diagrammy sostoyaniya metallicheskih sistem. – M.: Nauka, 1971. – S. 116-119.
Nechiporenko E., Poltavcev N., Kapustin V., Kondratov Yu. Oblast’ gomogennosti MoSi2// Izvestiya AN SSSR. ser. “Neorganicheskie materialy”. – 1973. – T. 9 . – S. 1829-1830.
Svechnikov B.H., Kocherzhinskij Yu.A., Yupko L.M. Svojstva silicidov perehodnyh metallov //Doklady AN USSR. ser. A. – 1970. – № 6. – S. 553.
Nechiporenko E., Petrichenko A., Pavlenko Yu. Zaschita metallov ot korrozii. – Har’kov: Vischa shkola, 1985. – 112 s.
Sposob silicirovaniya molibdena. – A.s. 1566773 SSSR, MKI5 S 23 S 10/44/E.P. Nechiporenko, Yu.B. Pavlenko, V.A. Chishkala, S.V. Litovchenko (SSSR).– № 4498187/31-02; Zayavl. 25.10.88.
Vysokotemperaturnaya ‘elektropech’. – A.s. 1636356 SSSR, MKI5 S 03 V 37/09/E.P. Nechiporenko, Yu.B. Pavlenko, V.A. Chishkala, S.V. Litovchenko, R.S. Shevelevich, Yu.A. Klyuchkov, A.N. Izotov (SSSR). – № 4612817/33; Zayavl. 02.12.88; Opubl. 23.03.91, Byul. № 11.
Sposob silicirovaniya molibdenovyh izdelij. – A.s. 1256437 SSSR, MKI4 S 23 S 10/52/ E.P. Nechiporenko, A.P. Petrichenko, Yu.B. Pavlenko, V.A. Chishkala, S.V. Litovchenko (SSSR). – № 3750554/22-02; Zayavl. 05.06.84.
Sposob silicirovaniya izdelij iz molibdena. - A.s. 1440078 SSSR, MKI4 S 23 S 10/44/ E.P. Nechiporenko, Yu.B. Pavlenko, A.P. Petrichenko, V.A. Chishkala, S.V. Litovchenko (SSSR). – № 4217077/31-02; Zayavl. 25.03.87.
Peralta P., Maloy S.A., Chu F., Petrovic J.J., Mitchell T.E. Mechanical Properties of Monocrystalline C11b MoSi2 With Small Aluminum Additions//Scripta Materialia. – 1997. – Vol. 37. – P. 1599-1604.
Sharif A.A., Misra A., Petrovic J.J., Mitchell T.E. Alloying of MoSi2 for Improved Mechanical Properties//Intermetallics. – 2001. – Vol. 9. – P. 869-873.
Umanskij L.S., Skakov Yu.S., Ivanov A.S., Rastorguev L.N. Kristallografiya, rentgenografiya i ‘elektronnaya mikroskopiya. - M.: Metallurgiya, 1982. - 632 s.
Lunev V.M., Nemashkalo O.V. Adgezionnye harakteristiki pokrytij i metody ih izmereniya//Fizicheskaya inzheneriya poverhnosti. – 2010. – T. 8, № 1. – S. 64-71.
Oliver W.C., Pharr G.M. An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments//Journal of Materials Research. 1992. – Vol. 7. – № 6. – P. 1564-1583.
Kaverin M., Krause-Rehberg R., Beresnev V. i dr. Vliyanie defektov i primesnyh atomov na fiziko-mehanicheskie svojstva nanostrukturnyh pokrytij v oblasti granic ih razdela//Fizicheskaya inzheneriya poverhnosti. – 2013. – T. 11, № 2. – S. 160-184.
Hruschev M.N. Sklerometriya. – M.: Nauka, 1968. – 205 s.
Gadalov V.N., Bredihina O.A., Kamyshnikov Yu.P. i dr. Ispol’zovanie metoda sklerometrii dlya ocenki metallov i splavov s ‘elektrofizicheskimi pokrytiyami//Novye materialy i tehnologii v mashinostroenii. Sb. nauchn. trudov po itogam mezhdunar. nauchn.-tehn. konf. – 2006. – Vyp. 6. – S. 10-15.
Azarеnkov M.O., Beresnєv V.M., Litovchenko S.V. ta іn. Funkcіonal’nі materіali і pokrittya : navchal’nij posіbnik. – Harkіv: HNU іmenі V.N. Karazіna, 2013. – 208 s.
Shatinskij, V.F., Nesterenko A.I. Zaschitnye diffuzionnye pokrytiya. – K.: Naukova dumka, 1988. – 272 s.
Samsonov G.V., Dvorina L.A., Rud’ B.M. Silicidy. – M.: Metallurgiya, 1979. – 271 s.
Milne John E. Molybdenum Disilicide as an Appliance Heating Element//JOM. – 1987. – Vol. 39. – Is. 2. – Р. 62.
Nechiporenko E.P., Petrichenko A.P., Pavlenko Yu.B., Litovchenko S.V. Silicidnye pokrytiya
na molibdene//Izvestiya AN SSSR. ser. “Neorganicheskie materialy”. – 1988. – № 10. – S. 1739-1741.
Zmij V.I., Ruden’kij S.G. Reakcionno-aktivirovannaya diffuziya i vakuumnye pokrytiya. Har’kov: NNC HFTI, 2010. – S. 79-94.
Fitzer E., Matthias K., Wild K. Oxidationskinetik von NbSi2 und MoSi2 bei hohen Temperaturen //Angewandte Chemie.– 1969.– Vol. 81.– Is. 22. Р. 932-933.
Fitzer E. Warmfeste und Korrosionsbest@ndige Sinterwerkstoffe//2 Plansee Seminar, Reutte, Tirol/Ed. F. Benesovsky. – Vienna: Springer. – 1956. – P. 56.
Ivanov V.E., Nechiporenko E.P., Zmij V.I. i dr. Issledovanie kinetiki okisleniya disilicida molibdena v intervale 1500 – 1800 °C//Izvestiya AN SSSR. ser. “Neorganicheskie materialy”. – 1965. – № 8. – S.1354-1357.
Niu Yaran, Xiaoai Fei, Hongyan Wang, Xuebin Zheng, Chuanxian Ding Microstructure Characteristics and Oxidation Behavior of Molybdenum Disilicide Coatings Prepared by Vacuum Plasma Spraying//Journal of Thermal Spray Technology. – 2013. – Vol. 22. – Iss. 2-3. – P. 96-103.
Chang Y.A. Oxidation of Molybdenum Disilicide //Journal of Materials Science. – 1969. – № 4. – P. 641-643
Yuntian T. Zhu, Li Shu, Darryl Butt P. Kinetics and Products of Molybdenum Disilicide Powder Oxidation//J. Am. Ceram. Soc.– 2002. – Vol. 85. – № 2. – P. 507-509.
Kazuya Kurokawa, Akira Yamauchi. Classification of Oxidation Behavior of Disilicides//Solid State Phenomena. – 2007. – Vol. 127. – P. 227-232.
Byalobzheskij A.V., Cirlin M.S., Krasilov B.I. Vysokotemperaturnaya korroziya i zashita sverhtugoplavkih metallov. – M.: Atomizdat, 1977. – S. 126.
MagnJli A., Andersson G., Blomberg B., Kihlborg L. Identiыcation of Molybdenum and Tungsten//Analytical Chemistry, 1952. – Vol. 24. – P. 1998-2000.
Lee Kyung-Hwan, Jin-Kook Yoon, Gyeung-Ho Kim, Jung-Mann Doh, Kyung-Tae Hong, WooYoung Yoon. Growth behavior and microstructure of oxide scale formed on MoSi2 coating at 773K //J. of Materials Research. – 2004. – Vol. 19. – Iss. 10. – Р. 3009-3018.
Meschter P.J., Low-temperature oxidation of molybdenum disilicide//Metallurgical Transactions A.– 1992.– Vol. 23. – Iss. 6. – Р. 1763-1772.
Wirkus C.D., Wilder D.R. High-Temperature Oxidation of Molybdenum Disilicide//J. of the American Ceramic Society. – Vol. 49. Is. 4. – Р. 173-177.
Westbrook J.H., Wood D.L. “PEST” degradation in beryllides, silicides, aluminides, and related compounds//J. of Nuclear Materials. – 1964. – Vol. 12. Iss. 2. – P. 208-215.
Bartlett R.W., McCamont J.W., Gage P.R. Structure and Chemistry of Oxide Films Thermally Grown on Molybdenum Silicides//J. of the American Ceramic Society. – 1965. – Vol. 48. – Iss. 11. – P. 551-558.
Melsheimer S., Fietzek M., Kolarik V., A Rahmel., Schutze M. Oxidation of the Intermetallic MoSi2 and TiSi2-A Comparison//Oxidation of Metals. – 1997. – Vol. 47. – Р. 139-203.
Zhu Y.T., Stans M., Conzone S.D., Butt D.P. Thermal Oxidation Kinetics of MoSi2-Based Powders//J. of the American Ceramic Society. 1999. – Vol. 82. – P. 2785-2790.
Wakita A.S., Sigmon T.W., Gibbons J.F. Oxidation Kinetics of Laser Formed MoSi2 on Polycrystalline Silicon//J. of Applied Physics. – 1983. – Vol. 54. – P. 2711-2715.
Mochizuki T., Kashiwagi M. Characterization of Thin Film Molybdenum Silicide Oxide.
Berkowitz-Mattuck J.B., Dils R.R. High Temperature Oxidation II. Molybdenum Silicides// Journal of The Electrochemical Society. – 1965. – Vol. 112. – P. 583-589.
Azarenkov N.A., Sobol’ O.V., Beresnev V.M. i dr. Materialovedenie neravnovesnogo sostoyaniya modificirovannoj poverhnosti. Monografiya. – Sumy: Sumskoj gosudarstvennyj universitet, 2012. – 683 s.
Svechnikov V.N., Kocherzhinskij Yu.A., Yupko L.M. Diagramma sostoyaniya sistemy molibden-kremnij//Diagrammy sostoyaniya metallicheskih sistem. – M.: Nauka, 1971. – S. 116-119.
Nechiporenko E., Poltavcev N., Kapustin V., Kondratov Yu. Oblast’ gomogennosti MoSi2// Izvestiya AN SSSR. ser. “Neorganicheskie materialy”. – 1973. – T. 9 . – S. 1829-1830.
Svechnikov B.H., Kocherzhinskij Yu.A., Yupko L.M. Svojstva silicidov perehodnyh metallov //Doklady AN USSR. ser. A. – 1970. – № 6. – S. 553.
Nechiporenko E., Petrichenko A., Pavlenko Yu. Zaschita metallov ot korrozii. – Har’kov: Vischa shkola, 1985. – 112 s.
Sposob silicirovaniya molibdena. – A.s. 1566773 SSSR, MKI5 S 23 S 10/44/E.P. Nechiporenko, Yu.B. Pavlenko, V.A. Chishkala, S.V. Litovchenko (SSSR).– № 4498187/31-02; Zayavl. 25.10.88.
Vysokotemperaturnaya ‘elektropech’. – A.s. 1636356 SSSR, MKI5 S 03 V 37/09/E.P. Nechiporenko, Yu.B. Pavlenko, V.A. Chishkala, S.V. Litovchenko, R.S. Shevelevich, Yu.A. Klyuchkov, A.N. Izotov (SSSR). – № 4612817/33; Zayavl. 02.12.88; Opubl. 23.03.91, Byul. № 11.
Sposob silicirovaniya molibdenovyh izdelij. – A.s. 1256437 SSSR, MKI4 S 23 S 10/52/ E.P. Nechiporenko, A.P. Petrichenko, Yu.B. Pavlenko, V.A. Chishkala, S.V. Litovchenko (SSSR). – № 3750554/22-02; Zayavl. 05.06.84.
Sposob silicirovaniya izdelij iz molibdena. - A.s. 1440078 SSSR, MKI4 S 23 S 10/44/ E.P. Nechiporenko, Yu.B. Pavlenko, A.P. Petrichenko, V.A. Chishkala, S.V. Litovchenko (SSSR). – № 4217077/31-02; Zayavl. 25.03.87.
Peralta P., Maloy S.A., Chu F., Petrovic J.J., Mitchell T.E. Mechanical Properties of Monocrystalline C11b MoSi2 With Small Aluminum Additions//Scripta Materialia. – 1997. – Vol. 37. – P. 1599-1604.
Sharif A.A., Misra A., Petrovic J.J., Mitchell T.E. Alloying of MoSi2 for Improved Mechanical Properties//Intermetallics. – 2001. – Vol. 9. – P. 869-873.
Umanskij L.S., Skakov Yu.S., Ivanov A.S., Rastorguev L.N. Kristallografiya, rentgenografiya i ‘elektronnaya mikroskopiya. - M.: Metallurgiya, 1982. - 632 s.
Lunev V.M., Nemashkalo O.V. Adgezionnye harakteristiki pokrytij i metody ih izmereniya//Fizicheskaya inzheneriya poverhnosti. – 2010. – T. 8, № 1. – S. 64-71.
Oliver W.C., Pharr G.M. An improved technique for determining hardness and elastic modulus using load and displacement sensing indentation experiments//Journal of Materials Research. 1992. – Vol. 7. – № 6. – P. 1564-1583.
Kaverin M., Krause-Rehberg R., Beresnev V. i dr. Vliyanie defektov i primesnyh atomov na fiziko-mehanicheskie svojstva nanostrukturnyh pokrytij v oblasti granic ih razdela//Fizicheskaya inzheneriya poverhnosti. – 2013. – T. 11, № 2. – S. 160-184.
Hruschev M.N. Sklerometriya. – M.: Nauka, 1968. – 205 s.
Gadalov V.N., Bredihina O.A., Kamyshnikov Yu.P. i dr. Ispol’zovanie metoda sklerometrii dlya ocenki metallov i splavov s ‘elektrofizicheskimi pokrytiyami//Novye materialy i tehnologii v mashinostroenii. Sb. nauchn. trudov po itogam mezhdunar. nauchn.-tehn. konf. – 2006. – Vyp. 6. – S. 10-15.
Опубліковано
2017-07-28
Як цитувати
Литовченко, С. В., Береснев, В. М., Чишкала, В. А., & Кунда, А. Г. (2017). Отримання і фізико-механічні властивості оксидно-силіцидних покриттів на молібдені. Журнал фізики та інженерії поверхні, 11(4), 393 - 405. вилучено із https://periodicals.karazin.ua/pse/article/view/8946
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