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FME Transactions
2019, vol. 47, br. 1, str. 42-47
jezik rada: engleski
vrsta rada: neklasifikovan
doi:10.5937/fmet1901042V


Rešavanje reološkog ponašanja keramičkih mulja
aKeser Italia S.r.l., Italy
bUniversity of Bologna, Italy

e-adresa: stefano.vitali84@gmail.com

Projekat

This publication is realized with the support of the European Union and the Region Emilia-Romagna (POR-FESR 2014-2020, Axis 1, Research and Innovation) inside the IPERCER project with the aim of developing energy efficient solutions for the production of large porcelain stoneware tiles

Sažetak

S obzirom na to da većina sirovina koje se koriste u keramičkoj industriji imaju sedimentno poreklo, njihova formacija se vodi u vodenom mediju, zbog čega većina procesa proizvodnje keramike uključuje vodu za proizvodnju različitih poluproizvoda. Međutim, reološko ponašanje keramike može imati značajan uticaj na njihovu obradu, definišući ključne parametre kao što su odnos čvrste vode, nivo deflokulacije i količina hemijskih aditiva koje će se koristiti. Stoga, predlozeni rad istražuje složenost osnovnih aspekata rheologije u keramičkim muljevima, sa namerom da obezbedi pregled hemijskog, fizičkog i praktičnog uticaja na izradu pločica sa industrijskih i naučnih tačaka.

Ključne reči

Reference

Amorós, J.L., Beltrán, V., Sanz, V., Jarque, J.C. (2010) Electrokinetic and rheological properties of highly concentrated kaolin dispersions: Influence of particle volume fraction and dispersant concentration. Applied Clay Science, 49(1-2): 33-43
Andreola, F., Castellini, E., Manfredini, T., Romagnoli, M. (2004) The role of sodium hexametaphosphate in the dissolution process of kaolinite and kaolin. Journal of the European Ceramic Society, 24(7): 2113-2124
Barrachina, E., Llop, J., Notari, M.D., Fraga, D., Martí, R., Calvet, I., Rey, A., Lyubenova, T.S., Kozhukharov, S.V., Kozhukharov, V.S., Carda, J.B. (2015) Rheological effect of different deflocculation mechanisms on a porcelain ceramic composition. J of Chem. Tech. and Metallurgy, Vol. 50(4), pp. 493-502
Beaumont, P.W.R., Soutis, C., Hodzic, A. (2015) Structural integrity and durability of advanced composites: Innovative modelling methods and intelligent design. Cambridge: Woodhead Publishing
Benaglia, M., Alberti, A., Giorgini, L., Magnoni, F., Tozzi, S. (2013) Poly(glycidyl methacrylate): a highly versatile polymeric building block for post-polymerization modifications. Polym. Chem., 4(1): 124-132
Benelli, T., Mazzocchetti, L., Dangelo, E., Lanzi, M., Saraga, F., Sambri, L., Franchini, M.C., Giorgini, L. (2017) New nitrogen-rich heterocycles for organo-modified bentonites as flame retardant fillers in epoxy resin nanocomposites. Polym. Eng. and Science, Vol. 57(6), pp. 621-630
de Souza, F., Bragança, S.R. (2018) Humic Acid as Dispersant of an Alumina Suspension and its Rheological Behaviour. Materials Research, 21(2):
de Souza, F., Bragança, S.R. (2018) Extraction and characterization of humic acid from coal for the application as dispersant of ceramic powders. Journal of Materials Research and Technology, 7(3): 254-260
Eygi, M.S., Ateşok, G. (2008) An investigation on utilization of poly-electrolytes as dispersant for kaolin slurry and its slip casting properties. Ceramics International, 34(8): 1903-1908
Fragassa, C. (2015) Limits in Application of International Standards to Innovative Ceramic Solutions. Int. J. for Quality Res, Vol. 9, No. 2, pp. 279-298
Fragassa, C. (2016) Flexural Testing Machine as an Off-Line Control System for Quality Monitoring in the Production of Bended Ceramic Tiles. Int. J. for Quality Res, Vol. 10, No. 2, pp. 373-388
Fragassa, C., Vannucchi, de C.F., Pavlovic, A., de Figueiredo, S.A., Minak, G., Pérez, B.C. (2018) Mechanical Characterization of Gres Porcelain and Low-Velocity Impact Numerical Modeling. Materials, 11(7): 1082
Fragassa, C. (2016) Modelling the viscoelastic response of ceramic materials by commercial finite elements codes. FME Transactions, vol. 44, br. 1, str. 58-64
Giorgini, L., Ballardini, S., Benelli, T., Mazzocchetti, L., Zattini, G. (2018) Dispersion and evaluation of organically modified nanoclays as performance enabling fillers for pPVC synthetic leathers. u: AIP Conference Proceedings, AIP Publishing, : 020155
Hammadi, L. (2018) Improving of the mechanical and rheological properties of slip of ceramic. Construction and Building Materials, 173: 118-123
Jawaid, M., Thariq, M. (2018) Handbook Sustainable Composites for Aerospace Applications. Cambridge: Woodhead Publishing
Konduri, M.K.R., Fatehi, P. (2017) Dispersion of kaolin particles with carboxymethylated xylan. Applied Clay Science, 137: 183-191
Lange, F.F. (1989) Powder processing science and technology for increased reliability. J Am. Ceram. Soc, Vol. 72(1), pp. 3-15
Lee, W.E., Rainforth, M. (1994) Ceramic microstructures: property control by processing. Berlin: Springer Science and Business Media LLC
Pavlovic, A., Fragassa, C. (2016) Modelling the viscoelasticity of ceramic tiles by finite element. u: AIP Conference Proceedings, AIP Publishing, : 020174
Pavlović, A., Fragassa, C., Ubertini, F., Martini, A. (2016) Modal analysis and stiffness optimization: The case of ceramic tile finishing. Journal of Serbian Society for Computational Mechanics, vol. 10, br. 2, str. 30-44
Portillo, C.G., García, A.L., García, V.L. (2011) Rheology of ceramic materials. Valencia: Bubok Publishing S.L
Sacmi, I. (2003) Tecnologia ceramica applicata. Bologna: La Mandragora
Setz, L.F.G., Koshimizu, L., de Mello-Castanho, S.R.H., Morelli, M.R. (2012) Rheological Analysis of Ceramics Suspensions with High Solids Loading. Materials Science Forum, 727-728: 646-651
Svec, M., Roosen, A., Schmidt, M., Münstedt, H., Betz, T., Koppe, F. (2001) Rheology and Local Flow Behaviour of Ceramic Slurries in the Tape Casting Head. Key Engineering Materials, 206-213: 219-222
Tsetsekou, A., Agrafiotis, C., Milias, A. (2001) Optimization of the rheological properties of alumina slurries for ceramic processing applications Part I: Slip-casting. Journal of the European Ceramic Society, 21(3): 363-373
Wang, F., Yin, J., Zuo, K., Xia, Y., Yao, D., Zeng, Y. (2016) Effect of organic additives on mechanical properties of SiC ceramics prepared by a modified gelcasting method. Processing and Application of Ceramics, 10(4): 227-233
Wiecinska, P., Graule, T., Bachonko, M. (2015) Organic additives in gel-tape casting of ceramic powders - A novel approach to the problem of elasticity and cracking of thin tapes. Journal of the European Ceramic Society, 35(14): 3949-3957
Zhu, X., Jiang, D., Tan, S. (2002) The control of slurry rheology in the processing of reticulated porous ceramics. Materials Research Bulletin, 37(3): 541-553