Composite ceramics for special purposes
DOI:
https://doi.org/10.31617/tr.knute.2021(39)06Keywords:
composite ceramics, additives, modification, grinding media, microstructureAbstract
As a result of the research carried out, the search for the optimal compositions of composite ceramics was carried out by the method of planning the experiment using the FFD25-1 as an experiment plan. The influence of modified additives of eutectic compositions on the physical and technical properties of composite ceramics for special purposes, with a low sintering temperature, used for the manufacture of grinding bodies, has been determined.
References
Iio, Satoshi, Yamamoto, Hiroshi & Mitsuoka, Takeshi. (2018). Microstructure Control of Alumina Ceramics. DOI: 10.1002/9780470294635.ch55 [in English].
Toraman, Öner, Teymen, Ahmet, Ersoy, Orkun & Köse, Harun. (2019). The Effect of Ceramic Grinding Media on Stirred Milling and Experimental Testing of Media Wear. Proceedings from: 6th International Conference on Materials Science and Nanotechnology for Next Generation [in English].
Cao, Yang, Tong, Xiong, Xie, Xian, Song, Qiang, Zhang, Wenjie, Du, Yunpeng et al. (2021). Effects of grinding media on the flotation performance of cassiterite. Minerals Engineering. Vol. 168 (7). DOI: 10.1016/j.mineng.2021.106919 [in English]
Vöth, Stefan, Bogdanov, V. S., Bogdanov, Nikita, Fadin, J. M., & Donstova, J. A. (2019). Mechanics of the grinding media in ball mills with longitudinal and transverse motion of the grinding media. ZKG International, 6, 43-48 [in English].
Wu, B. L., Zhang, H., Xie, J. R., Duan, X. L., Lin, H. J., & Guodong, L. I. (2010). New technology of preparing alumina ceramic grinding media. Industrial Ceramics, 20, XIII-XIV [in English].
Ruys, Andrew. (2019). Introduction to alumina ceramics. DOI: 10.1016/B978-0-08-102442-3.00001-4 [in English].
Yang, Rui, Qi, Zhe, Gao, Ye, Yang, Jinhua, Zhou, Yiran, Liu, Hu et al. (2020). Effects of alumina sols on the sintering of α-alumina ceramics. Ceramics International, 46. DOI: 10.101/j.ceramint.2020.05.125 [in English].
Zhang, S. High Temperature Ceramic Materials. Materials 2021, 14, 2031. DOI: 10.3390/ma14082031 [in English].
Wu, Tingting, Liu, Guanjun, Li, Yongfeng, Zhang, Yaqi, Zhang, Mingming, & Wu, Bolin. (2020). Effect of La2O3 on the corrosion resistance of alumina ceramic. Journal of Materials Research and Technology, 9. DOI: 10.1016/j.jmrt.2020.03.042 [in English].
Semantsova, E. S., Pletnev, P. M., & Shemyakyna, Y. V. (2019). Kompozytna keramika dlya spetsial’noho zastosuvannya. Pidvischennya yakosti ta efektyvnist’ budivel’nykh ta spetsial’nykh materialiv. Proceedings of the National Scientific and Practical Conference with International Participation. (pp. 278-282). Novosybyrs’k: ITS NHAU "Zolotoykolos" [in Russian].
Glagolev, S. N., & Romanovich, A. A. (2017). New technology and energy-saving equipment for grinding materials with an anisotropic texture. Belhorod: Belhorods’kyy derzhavnyy tekhnolohichnyy universytet im. V. H. Shukhova [in English].
Plotnykov, V. N., Funykov, Y. M., & Pyvynskyy, S. E. (2020). Sposib vypravlennya vyrobiv z korundo-kvartsevoyi keramiky. Patent RF, N 2713541 C1 [in Russian].
Rabier, Jacques. (2020). Dislocations in Ceramic Materials. Reference Module in Materials Science and Materials Engineering. DOI: 10.1016/B978-0-12-803581-8.12137-X [in English].
He, F., Song, L., & Sun, C. (2010). Effect of grinding media on the flotation of sulfide minerals. Proceedings from: XXV International Mineral Processing Congress 2010. Issue 3, 1945-1957 [in English].
Ceramic titles. Test methods. DSTU B V.2.7-283:2011. Kyіv: Minregionbud Ukraіny [in Ukrainian].
Tovazhnyans’kyy, L. L., Babak, T. H., Holubkina, O. O. et al. (2011). Komp’yuterne modelyuvannya v khimichniy tekhnolohiyi. Kharkiv: NTU "KHPI" [in Ukrainian].
Aoki, Satoshi, & Takemura, Akimichi. (2010). Design and Analysis of Fractional Factorial Experiments from the Viewpoint of Computational Algebraic Statistics. Journal of Statistical Theory and Practice. DOI: 6.10.1080/15598608.2012.647556 [in English].
