synthesis of a special enamel for Nickel-Chrome resistor and characterizing the viscosity and surface tension

Document Type : Original Articles

Authors

1 IUA

2 Iran University of Science and Technology

Abstract

In the present work, attempts have been made to find appropriate coating by testing different compounds. Results showed that the optimum enamel is a compound with 1 wt.% cobalt oxide, 3 wt.% chromium oxide (in addition to hundred percent) with the firing temperature of 840 ˚C. Constants of VFT equation were determined by examination of melting behavior of the optimum enamel and measurement of the transition and softening temperatures (Tg and Ts). Results also showed that in the firing temperature, the viscosity of coating is 103.8 Pa.s, the contact angle (wetting of melt with the ceramic substrate) is 135° and the surface tension of the melt is 245.1 mN/m.

Keywords

References

1. Marbaker, E., "Coatings for Wire-Wound Resistors", Am. Ceram. Soc, Vol. 28, pp. 329-342, (1945).
2. Jones, D., "Navy electricity and electronics training", naval education and training professional development and technology center, Washington, D.C., (1998).
3. Hailing, J., "Power wire-wound resistors", electronics and power, Vol. 29, pp. 244-245, (1983).
4. Hubertus, J., deceased, J.," wire-wound resistor", US patent NO.4406994, (1983).
5. Deyrup, A. J.," Enamels for resistors", US patent NO.2425032, (1944).
6. Costa, U., Electrical resistor with a polycrystalline ceramic cover and process for Manufacture, US patent NO. 3919682, (1975).
7. ASM Handbook. Vol. 2, “Properties and selection: nonferrous alloys and special-purpose materials”, pp. 822-839, (2000).
8. Hong, F., Holland, D., "Studies of interface reactions between glass ceramic coatings and metals", Non-crystalline solids, Vol. 112, pp. 357-363, (1989).
9. Grunling, H., Schneider, K., "Coating in industrial gas turbines: experience and further requirements", thin solid films, Vol. l84, pp. 1-15, (1981).
10. Hong, F., Holland, D., "Bonding glass ceramics to high temperature alloys, surface and coating technology", Vol. 39, pp. 19-27, (1989).
11. Goodman, G., "Porcelain enamel", US patent NO. 2481474, (1949).
12. Cahill, R.," Process for wire-wound resistor", US patent NO.2994945, (1957).
13. Zubekhin, A., Manysheva, E. and Ochkurova, L., "technological specifies of devitrified composite heat-resistant coatings for nichrome alloys", glass and ceramics, Vol. 57, pp. 30-33, (2000).
14. میر محمد عباسیان، "صنعت لعاب سازی و رنگ های آن" ، انتشارات گوتنبرگ، صفحه 66-64، (1379).
15. Ahmed, M., Earl, D., "Characterizing glaze-melting behavior via HSM", Am. Ceram. Soc. Bull, Vol. 81, pp. 47-51, (2002).
16. Dumitrache, R., "melting behavior of feldspar porcelain glazes", U.P.B. Sci. Bull, Vol. 68, pp. 3-16, (2006).
17. Prabhu, A., Gary, L. and Vest, R., "viscosity and surface tension of a molten lead borosilicate glass", Am. Ceram. Soc, Vol. 58, pp. 144-145, (1975).
18. Fujino, S., Hwang, C. and Morinaga, Kenji., "density, surface tension and viscosity of PbO-B2O3-SiO2 glass melts", Am. Ceram. Soc, Vol. l87, pp. 10-16, (2004).
19. Shartsiss, L., Spinner, S. and Smock, A., "Surface Tension of Compositions in the Systems PbO-B2O3 and PbO-SiO2", Am. Ceram. Soc, Vol. 31, pp. 23-27, (1948).
20. واهاک مارقوسیان، "شیشه: ساختار، خواص و کاربرد"، انتشارات دانشگاه علم و صنعت ایران، چاپ دوم، صفحه 225-218، (1386).
21. Dietzel, A., "Emaillierung Wissenschaftliche Grundlagen and Grundzuge der Technologie", Springer Verlag., Berlin, pp. 352-358, (1981).
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