Steklo i Keramika (Glass and Ceramics). Monthly scientific, technical and industrial journal

 

ISSN 0131-9582 (Online)

  • Continuous numbering: 1096
  • Pages: 44-49
  • Share:

Heading: Utilization of waste

The possibility of using (2.5 - 10 & # 37; by weight) wastes from the production of paraffin wax (OPP) in the production of porous ceramics has been investigated. Additive 2.5 & # 37; OPP increases the compressive strength of the ceramic. Increase in OPP to 10 & # 37; significantly increases the apparent porosity of the ceramic
Dr. Tech. Sciences I. PRANTSKEVICIENE ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ), Dr. Sciences I. PUNDIENE ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ), Dr. Sci. V. R. BALKEVICHUS ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ) G. BALCHUNAS ( e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it. ); Institute of Building Materials, Faculty of Civil Engineering, Vilnius Technical University Gediminas (VGTU) (Lithuania, Vilnius)
Wanga L., Jin Y., Nieb Y., Li R. Recycling of municipal solid waste incineration fly ash for ordinary Portland cement production: A real-scale test Resources // Resources, Conservation and Recycling. 2010. V. 54. No. 12.P. 1428? 1435. Song Y., Li B., Yang EH et al. Feasibility study on utilization of municipal solid waste incineration bottom ash as aerating agent for the production of autoclaved aerated concrete // Cement and Concrete Composites. 2015. V. 56. P. 51? 58. Yang J., Xiao B., Boccaccini AR Preparation of low melting temperature glass-ceramics from municipal waste incineration fly ash // Fuel. 2009. V. 88. No. 7.P. 1275? 1280. Mymrin V., Klitzke W., Alekseev K. et al. Red clay application in the utilization of paper production sludge and scrap glass to fabricate ceramicmaterials // Applied Clay Science. 2015. V. 107. P. 28? 35. Stonys R., Kuznetsov D., Krasnikovs A. et al. Reuse of ultrafine mineral wool production waste in the manufacture of refractory concrete // Journal of Environmental Management. 2016. V. 176. P. 149? 156. Karayannis VG Development of extruded and fired bricks with steel industry byproduct towards circular economy // Journal of Building Engineering. 2016. V. 7. P. 382? 387. Kazmia SMS, Abbas S., Munira MJ, Khitab A. Exploratory study on the effect of waste rice husk and sugarcane bagasse ashes in burnt clay bricks // Journal of Building Engineering. 2016. V. 7. P. 372? 378. Taha Y., Benzaazoua M., Hakkou R., Mansori M. Natural clay substitution by calamine processing wastes to manufacture fired bricks // Journal of Cleaner Production. 2016. V. 135. P. 847? 858. Li H., Liuliu D., Jiang Z. et al. Study on utilization of red brick waste powder in the production of cement-based red decorative plaster for walls // Journal of Cleaner Production. 2016. V. 133. P. 1017? 1026. Mu'oz P., Morales MP, Letelier GV et al. Fired clay bricks made by adding wastes: Assessment of the impact on physical, mechanical and thermal properties // Construction and Building Materials. 2016. V. 125. P. 241? 252. Coletti C., Maritan L., Cultrone G., Mazzoli C. Use of industrial ceramic sludge in brick production: Effect on aesthetic quality and physical properties // Construction and Building Materials. 2016. V. 124. P. 219? 227. Soltan AMM, P?hler K., Fuchs F. et al. Clay-bricks from recycled rock tailings // Ceramics International. 2016. V. 42. No. 15.P. 16685? 16696. Bernardo E., Bonomo E., Dattoli A. Optimization of sintered glass? Ceramics from an industrial waste glass // Ceramics International. 2010. V. 36. No. 5.P. 1675? 1680. Erol M., Kucukbayrak S., Ersoy-Mericboyu A. The influence of the binder on the properties of sintered glass-ceramics produced from industrial wastes // Ceramics International. 2009. V. 35. No. 7.P. 2609? 2617. Monteiro SN, Alexandre J., Margem JI et al. Incorporation of sludge waste from water treatment plant into red ceramic // Construction and Building Materials. 2008. V. 22. No. 6.P. 1281? 1287. Ducman V., Kopar T. The influence of different waste additions to clay-product mixtures // Materials and technology. 2007. V. 41. No. 6.P. 289? 293. El-Shimy YN, Amin Sh. K., EL-Sherbiny SA, Abadir MF The use of cullet in the manufacture of vitrified clay pipes // Construction and Building Materials. 2014. V. 73. P. 452? 457. P? Rez-Villarejo L., Corpas-Iglesias F. A., Mart? Nez-Mart? Nez S. et al. Manufacturing new ceramic materials from clay and red mud derived from the aluminum industry // Construction and Building Materials. 2012. V. 35. P. 656? 665. Kizinievi? O., Balkevi? Ius V., Pranckevi? Ien? J., Kizinievi? V. Investigation of the usage of centrifuging waste of mineral wool melt (CMWW), contaminated with phenol and formaldehyde, in manufacturing of ceramic products // Waste Management. 2014. V. 34. No. 8.P. 1488? 1494. Boltakova NV, Faseeva GR, Kabirov RR et al. Utilization of inorganic industrial wastes in producing construction ceramics. Review of Russian experience for the years 2000? 2015 // Waste Management. 2017. V. 60. P. 230? 246. Sutcu M., Ozturk S., Yalamac E., Gencel O. Effect of olive mill waste addition on the properties of porous fired clay bricks using Taguchi method // Journal of environmental management. 2016. V. 181. P. 185? 192. Sutcu M., Akkurt S. Utilization of recycled paper processing residues and clay of different sources for the production of porous anorthite ceramics // Journal of the European Ceramic Society. 2010 V. 30. No. 8.P. 1785? 1793. Eliche-Quesada D., Felipe-Ses? A MA, L? Pez-P? Reza JA, Infantes-Molinac A. Characterization and evaluation of rice husk ash and wood ash in sustainable clay matrix bricks // Ceramics International. 2017. V. 43. No. 1.P. 463? 475. Akhtar F., Rehman Y., Bergstr? M L. A study of the sintering of diatomaceous earth to produce porous ceramic monoliths with bimodal porosity and high strength // Powder Technology. 2010. V. 201. No. 3.P. 253? 257. Pimraksa K., Chindaprasirt P. Lightweight bricks made of diatomaceous earth, lime and gypsum // Ceramics International. 2009. V. 35. No. 1.P. 471? 478. Escalera E., Garcia G., Tern R. et al. The production of porous brick material from diatomaceous earth and Brazil nut shell ash // Construction and Building Materials. 2015. V. 98. P. 257? 264. Ma? Iulaitis R., Malai? Kien? J. New quality regulation system for manufacture of ceramic products // Construction and Building Materials. 2007. V. 21. No. 2.P. 258? 268. Gal? N-Arboledas RJ, Cotes-Palomino MT, Bueno S., Mart? Nez-Garc? A C. Evaluation of spent diatomite incorporation in clay based materials for lightweight bricks processing // Construction and Building Materials. 2017. V. 144. P. 327? 337.

The article can be purchased
electronic!

PDF format

500 руб

UDK 666.3
Article type: Utilization of waste
Make a request

Keywords

Use the reference below to cite the publication

Pranckeviciene J., Pundiene I., Balkevicius V. R., Balciunas G. Study of the Effect of Paraffin Production Waste on the Properties of Ceramic Products. Steklo i keramika. 2019:92(4):44-49. (in Russ). UDK 666.3