PECULIARITIES OF FORMATION OF LAYER NANOCOMPOSITES OF "METAL-DIELECTRIC" TYPE BY METHOD OF TRAFARET PRESS
DOI: https://doi.org/10.26909/csl.4.2016.2
Abstract
This article is about the formation of solid nanocomposites of «metal - dielectric» type by screen printing method. It was established that nanocomposites could be obtained by the consistent printing of several layers of plasticized dielectric paste based on ВаТіО3 nanopowder with subsequent printing of conductive paste based on Ni/NiO nanopowder. As a result, after sintering the continuous bilayered nanocomposites with clear interphase between functional layers were obtained.
References
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2. Ajayan, P.M. Nanocomposite science and technology / P.M. Ajayan, L.S. Schadler, P.V. Braun. – Weinheim: Wiley-VCH GmbH & Co KGaA, 2003 – 223 p. ISBN 3-527-30359-6.
3. Барыбин, А.А. Физико-химия наночастиц, наноматериалов и наноструктур. Учебное пособие / А.А. Барыбин, В.А. Бахтина, В.И. Томилин, Н.П. Томилина. – Красноярск : Сибирский федеральный университет, 2011. – 236 с. ISBN 978-5-7638-2396-7.
4. Cao, Y. The future of nanodielectrics in the electrical power industry / Y. Cao, P.C. Irwin, K. Younsi // Dielectrics and Electrical Insulation, IEEE Transactions on. – 2004. – Vol. 11, No 5. – P. 797 - 807.
5. Stojanovic, B.D. Barium titanate screen-printed thick films / B.D. Stojanovic, C.R. Foschini, V.B. Pavlovic, V.M. Pavlovic, V. Pejovic, J.A. Valera // Ceramics International. – 2002. – Vol. 28, No. 3. – P. 293 - 298.
6. Pan, M.J. A brief introduction to ceramic capacitors / M.J. Pan, C.A. Randall // IEEE electrical insulation magazine. – 2010. – Vol. 26, No 3. – P. 44 - 50.
7. Kishi, H. Base-metal electrode-multilayer ceramic capacitors: past, present and future perspectives / H. Kishi, Y. Mizuno, H. Chazono // Japanese Journal of Applied Physics. – 2003. – Vol. 42, No. 1R. – P. 1 - 15.
8. Inukai, K. Molecular weight dependence of ethyl cellulose adsorption behavior on (La, Sr)(Ti, Fe)O3-δ particles in organic solvent pastes and their printing properties / K. Inukai, Y. Takahashi, S. Murakami // Ceramics International. - 2014. – Vol. 40, No. 8. – P. 12319 - 12325.
9. Inukai, K. Rheological analysis of ceramic pastes with ethyl cellulose for screen-printing / K. Inukai, Y. Takahashi, K. Ri, W. Shin // 2015. – Vol. 41, No. 4. – P. 5959 - 5966.
10. Murakami, S. Effects of ethyl cellulose polymers on rheological properties of (La,Sr)(Ti,Fe)O3 - terpineol pastes for screen printing / S. Murakami, K. Ria, T. Itoha //, Ceramics International. – 2014. – Vol. 40, No. 1. – P. 1661 - 1666.
11. Phair, J.W. Rheological analysis of concentrated zirconia pastes with ethyl cellulose for screen printing SOFC electrolyte films / J.W. Phair //Journal of the American Ceramic Society. – 2008. – Vol. 91, No. 7. – P. 2130 - 2137.
12. Phair, J.W. Determination and Assessment of the Rheological Properties of Pastes for Screen Printing Ceramics / J.W. Phair, A.F.J. Kaiser //Annual Transactions of the Nordic Rheology Society. – 2009. – Vol. 17. – 5 p.
13. Gemeiner, P. The relation between TiO2 nano-pastes rheology and dye sensitized solar cell photoanode efficiency // P. Gemeiner, M. Mikula /Materials Science in Semiconductor Processing. – 2015. – Vol. 30. – P. 605 - 611.
14. Weng, B. Printing conducting polymers / B. Weng, R.L. Shepherd, K. Crowley, // Analyst. – 2010. – Vol. 135, No. 11. – P. 2779 - 2789.
15. Aegerter, M.A. Sol-gel technologies for glass producers and users / M.A. Aegerter, M. Mennig. – New York: Springer, 2004. – 493 p. ISBN 978-1-4020-7938-2.
16. Ингрем, С.Т. Основы трафаретной печати / С. Т. Ингрем; пер. на рус. яз. М. Бредис, С. Вартанян. – М.: МГУП, 2004. – 165 с.
17. Сорокин, Б.А. Трафаретная печать: Учебное пособие / Б.А. Сорокин – М.: МГУП. – 2005. – 142 с. ISBN 5-8122-0117-х.
18. Beeby, S. MEMS Mechanical Sensors / S. Beeby, G. Ensell, M. Kraft, N. White. - Boston- London.: Artech House, 2004. – 282 p. ISBN 978-1-58053-536-6.
19. White, G.S. A model for the screen-printing of Newtonian fluids / G.S. White, C.J.W. Breward, P.D. Howell, R.J.S. Young // Journal of Engineering Mathematics. – 2006. – Vol. 54, No. 1. - P. 49 - 70.
20. Dulina, I. Plasticizer effect on rheological behaviour of screen printing pastes based on barium titanate nanopowder / I. Dulina, S. Umerova, A. Ragulya // Journal of Physics. – 2015. – Vol. 602. – P. 1 – 5.
21. Umerova, S. Rheology of plasticized screen printing pastes based on BaTiO3 nanopowder / S. Umerova, I. Dulina, A. Ragulya, T. Konstantinova, V. Glazunova // Applied Rheology. – 2016. - Vol. 3, No. 3. – P. 1 – 9.
22. Умерова, С.О. Трафаретний друк паст на основі нанопорошку ВаТіО3 / С.О. Умерова, І.О. Дуліна, А.В. Рагуля // Керамика: наука и жизнь. – 2016. - Т. 31, № 2. – С. 31 – 41.
23. Somalu, M.R. Renewable and Sustainable Energy Reviews (2016), http://dx.doi.org/10.1016/j.rser.2016.11.008.
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Published
2016-12-31
How to Cite
Umerova, S. O., Dulina, I. O., Baranovskyi, D. I., & Rahulia, A. V. (2016, December 31). PECULIARITIES OF FORMATION OF LAYER NANOCOMPOSITES OF "METAL-DIELECTRIC" TYPE BY METHOD OF TRAFARET PRESS. Ceramics: Science and Life, (4(33), 13-27. https://doi.org/10.26909/csl.4.2016.2
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Technologies
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