Industrijski otpad kao faktor povećanja hemijske otpornosti keramike

Autori

  • Lev Chernyak National Technical University of Ukrain 'Igor Sikorsky', Polytechnic Institute, Kyiv, Ukraine Autor

DOI:

https://doi.org/10.5937/zasmat2202177C

Ključne reči:

keramika, hemijska otpornost, crveni mulj, sastav, keramička masa, pečenje, fazni sastav, svojstva

Apstrakt

Prikazana je mogu nost proizvodnje keramike sa podjednako visokim pokazateljima kiselinske i alkalne otpornosti. Postignuti efekat je povezan sa formiranjem sistema kristalnih faza anortithematit-kristobalit pri pečenju masa stvorenih na bazi kompozicija crvenog mulja i polimineralne gline. Predložene su tehnološke šeme proizvodnje keramičkih materijala iz masa sa ukupnim sadržajem 0-0 crvenog mulja otpada obojene metalurgije što je aktor povećanja dekorativnih i eksploatacionih karakteristika proizvodnje.

Reference

Andrianov, N.T., Balkevič, V.L., Belâkov, A.V. (2005) Praktikum po himičeskoj tehnologii keramiki: učeb. posobie dlâ vuzov pod red. I.Â. Guzmana. OOORIF 'Strojmaterialy', 336

Budnikov, P.P., Haritonov, F.Â. (1971) Keramičeskie materialy dlâ agressivnyh sred. Strojizdat, M, 272-272

Černâk, L.P. (2003) Kompleksne vikoristannâ prirodnoї TA tehnogennoї sirovini v tehnologії hіmіčno stіjkoї keramіki, Budіvel'nі materіali, virobi TA sanitarna tehnіka.Znannâ, K., Vip., 18: 41-49

Černâk, L.P., Ničiporenko, S.P. (1977) Strukturoobrazovanie dispersij prirodnyh glin pri termičeskoj obrabotke. in: VІІ Vsesoûznaâ konf. po kolloidnoj himii i fiziko-himičeskoj mehanike: tezisy dokl, Minsk: Nauka i tehnika, 398-399

Černâk, L.P. (2003) Kriterії viboru sirovini dlâ sučasnogo virobnictva budіvel'noї keramіki.Stroitel'nye materialy i izdeliâ, №1: 2-4, №2: 6-8

Dâtlova, E.M., Birûk, V.A. (2006) Himičeskaâ tehnologiâ keramiki i ogneuporov. Laboratornyj praktikum. Učebnoe posobie. Minsk: BGTU, 284

Gu, H., Wang, N., Liu, S. (2012) Radiological Restrictions of Using Red Mud as Building Material Additive.Waste Management & Research, 30: 961-965

https://doi.org/10.1177/0734242X12451308

Gumenûk, E.L., Zajonc, R.M., Černâk, L.P., Lobasova, T.M. (1978) Analiz strukturoobrazovaniâ i svojstv kislotouporov iz mass s dobavkoj obsidiana.Steklo i keramika, 7: 19-21

Harekrushna, S., Ch, M.S., Sahoo, S.K., Chakraverty, A.P., Maharana, H.S. (2014) Progress of Red Mud Utilization: An Overview.American Chemical Science Journal, 4(3): 255-279

https://doi.org/10.9734/ACSJ/2014/7258

Košlâk, L.L., Kalinovskij, V.V. (1990) Proizvodstvo izdelij stroitel'noj keramiki. Vysšaâ škola, 207-207

Kounalakis, P., Aravossis, K., Karayianni, C. (2016) Feasibility Study for an Innovative Industrial Red Mud Utilisation Method.Waste Management & Research, 34: 171-175

https://doi.org/10.1177/0734242X15615423

Krasnyi, B.L., Tarasovskii, V.P., Rakhmanova, E.V., et al. (2004) Chemical Resistance of Ceramic Materials in Acids and Alkalis.Glass and Ceramics, 61: 337-339

https://doi.org/10.1023/B:GLAC.0000048706.05368.71

Levandovs'ka, N.F., Černâk, L.P. (2008) Tehnologіâ TA strukturoutvorennâ budіvel'noї keramіki.Keramika: nauka i žizn', 2: 10-18

Lima, M.S.S., Thives, L.P., Haritonovs, V., Bajars, K. (2017) Red Mud Application in Construction Industry: Review of Benefits and Possibilities.IOP Conf. Ser. Mater. Sci. Eng.

https://doi.org/10.1088/1757-899X/251/1/012033

Melnyk, L., Myronyuk, O., Ratushniy, V., Baklan, D. (2020) The Feasibility of Using Red Mud in Coatings Based on Glyptal.French-Ukrainian Journal of Chemistry, 8: 88-94

https://doi.org/10.17721/fujcV8I1P88-94

Myronyuk, O., Dudko, V., Baklan, D., Melnik, L. (2017) Study of Structure Influence on Wear Resistance of Hierarchial Superhydrophobic Coatings.Eastern European Journal of Enterprise Technologies, 3(12-87): 44-49

https://doi.org/10.15587/1729-4061.2017.103028

Pavlov, V.F. (1975) Vliânie himičeskogo i fazovogo sostavov na kisloto-stojkost' keramičeskih izdelij. Trudy instituta NIIstrojkeramika, 40-41, 240-257

Sahu, M.K., Patel, R.K. (2016) Methods for Utilization of Red Mud and Its Management, Environmental Materials and Waste.Academic Press, 485-524

https://doi.org/10.1016/B978-0-12-803837-6.00019-6

Yang, X., Zhao, J., Li, H., Zhao, P., Chen, Q. (2017) Recycling Red Mud from the Production of Aluminium as a Red Cement-based Mortar.Waste Management & Research, 35(5): 500-507

https://doi.org/10.1177/0734242X16684386

Zajonc, R.M., Černâk, L.P. (1975) Keramičeskie himičeski stojkie izdeliâ. VNIIÈSM, 32-32

##submission.downloads##

Objavljeno

2022-06-15

Broj časopisa

Rubrika

Articles