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Abstrakty
Polepszona wysokotemperaturowa odporność na wstrząs cieplny wysokokorundowych monolitów ogniotrwałych dzięki tworzeniu się in-situ spinelu w inteligentnej osnowie.
Wydawca
Czasopismo
Rocznik
Tom
Strony
198--202
Opis fizyczny
Bibliogr. 13 poz., rys., wykr., tab.
Twórcy
autor
- Hochschule Koblenz, Höhr-Grenzhausen, Germany
autor
- Hochschule Koblenz, Höhr-Grenzhausen, Germany
autor
- Forschungsgemeinschaft Feuerfest e.V., Höhr-Grenzhausen, Germany
autor
- Forschungsgemeinschaft Feuerfest e.V., Höhr-Grenzhausen, Germany
autor
- Hochschule Koblenz, Höhr-Grenzhausen, Germany
Bibliografia
- [1] Mukhopadhay, S., Das Poddar, P.K.: Effect of preformed and in situ spinels on microstructure and properties of low cement refractory castable, Ceram. Int., 30, (2004), 369-380.
- [2] Zhang, D., Lee, W. E.: Spinel-Containing Refractories. Refractories Handbook, Marcel Dekker Inc., USA (2004), 215-257.
- [3] Ko, Y. C.: Properties and production of Al2O3-Spinel and Al2O3-MgO castables for steel ladles, Ceram. Int., 6, 1, (2002), 51–56.
- [4] Racher, P. R., McConnell, R. W., Buhr, A.: Magnesiumaluminate spinel raw materials for high performance refractories for steel ladles, in Proceedings of 43rd Conference of Metallurgy, Hamilton, Canada (2004).
- [5] Reisinger, P., Preßlinger, H., Pissenberger, E., Posch, W.: Evaluation of the interaction of different ladle slags with two different alumina castables, Veitsch-Radex Rundschau, 1, (1998), 3–19.
- [6] Fuhrer, M., Hey, A., Lee, W. E.: Microstructural evolution in self-forming spinel/calcium aluminate castable refractories, J. Eur. Ceram. Soc., 18, (1998), 813-820.
- [7] Itose, S., Nakashima, M., Isobe, T., Shimizu, I.: Improvement in the durability of alumina-spinel steel ladle castable containing spinel fine powder, J. Tech. Ass. Refract., 22, (2002), 26-30.
- [8] Nakagawa, Z., Enomoto, N., Yi, I.S., Asano, K.: Effect of corundum/periclase sizes on expansion behavior during synthesis of spinel, in Proceedings of UNITECR’95, Kyoto, Japan (1995), 1312–1319.
- [9] Braulio, M. A. L, Rigaud, M., Buhr, A., Parr, C., Pandolfelli, V. C.: Spinel-containing alumina-based refractory castables, Ceram. Int., 37, (2011), 1705-1724.
- [10] Kitamura, A., Onizuka, K.: Hydration Characteristics of magnesia, Taikabutsu Overseas, 16, 3, (1995), 3-11.
- [11] Chen, S.-K., Cheng, M.-Y. Lin, S.-J., Ko, Y.-C.: Thermal characteristics of Al2O3-MgO and Al2O3-spinel castables for steel ladles, Ceram. Int., 28, (2002), 811-817.
- [12] Brochen, E., Dannert, C., Holleyn, F., Krause, O.: How does the spinel formation improve the flexibility of spinel forming alumina castables at elevated temperature?, in Proceedings of the 59th International Conference on Refractories, Aachen (2016), 112-116.
- [13] Harders, F., Klenow, S.: Feuerfestkunde: Herstellung, Eigenschaften und Verwendung feuerfester Baustoffe, Springer-Verlag Berlin Heidelberg GmbH, 1st edition, (1960), 658.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5b124468-7916-4bcd-a8bc-2209fa0cdf25