The Effect of Addition of ZnO to Granite Body on Sintering and Mechanical Properties

Savaş Elmas

doi:10.18466/cbayarfbe.814870

Araştırma Makalesi

Yıl 2021, Cilt: 17 Sayı: 1, 51 - 57, 30.12.2020

Savaş Elmas

https://doi.org/10.18466/cbayarfbe.814870

Öz

Kaynakça

1. TSF2019 Faaliyet Raporu. https://serfed.com/upload/raporlar/TSF%202019%20FAAL%C4%B0YET%20RAPORU%20SON.pdf (accessed at 15.10.2020)
2. Paganelli M. and Sighinolfi D., 2009.Effect of Quartz Particle Size on Porcelain Stoneware Sintering by Means of Optical Dilatometry. Ceramic Forum International, Volume 86.
3. Biesuz, M., Abate W.D., Sglavo V., 2018. Porselem stoneware consolidation by flash sintering. Journal of American Ceramic Society, Volume 101, pp.71-81.
4. Mahdi O.S., 2018. Study the Influence of Sintering on the Properties of Porcelain Stoneware Tiles. International Journal of Applied Engineering Research ISSN 0973-4562 Volume 13, Number 6, pp. 3248-3254.
5. Zanelli C., Raimondo M., Guarini G. and Dondi M., 2011. The vitreous phase of porcelain stoneware: Composition, evolution during sintering and physical properties. Journal of Non-crystalline Solids, Volume 357, pp. 3251-3260.
6. Fortuna D., 2000, Ceramic Technology-Sanitaryware. Gruppo Editoriale Faenza Editrice.
7. Ryan W., Radford C., 1987. Whitewares Productions, Testing and Quality Control. The Institute of Ceramics, Pergamon Press.
8. Lundin S. T., 1964. Microstructure of Porcelain pp.93-106 in Microstructure of Ceramic Materials, Proceedings of the American Ceramic Society Symposium, National Bureau of Standards Miscellanesous Publications No.257. National Bureau of Standard, Gaithersburg, MD.
9. Vari A. Drying and Firing of Ceramic Tiles, Modena-Italia , S.A.L.A.srl, via carlo Zucchi,21 A/B.
10. Worral W.E., 1975. Clay and Ceramic Raw Materials, New York, Elsevier Applied Science Publishers.
11. Norton F.H., 1970. Fine Ceramics Technology and Applications,Florida, Robert E.Krieger Publishing Comp,INC. 12. Iqbal Y., Lee W. E., 2000, Microstructural Evolution in Triaxial Porcelain, J.Am. Ceram. Soc., 83 [12] 3121-27. 13. Bhattacharyya S., Snehesh T.S., 2015. Improvement of fired properties in porcelain system by the addition of transition metal oxides, Journal of The Australian Ceramic Society, Volume 51[1], 8-15.
14. Bhattacharya S., Snehish T.S., 2015. Effect of cobalt oxide additive on the fired properties of tri-axial ceramic, Ceramics International 41, 61-67.
15.Bhattacharyya S., Das S.K., Mıtra N.K., 2005. Effect of titania on fired characteristics of triaxial porcelain , Bull. Mater. Sci., Vol. 28, No. 5, August, pp. 445–452. © Indian Academy of Sciences.
16.S.P., 1974. Ceram.Bull.53, 169.
17. Iya S.G.D, Noh M.Z., Razak S.N.A., Sharip N., Kutty A.A., 2019. Effect of Iron (111) Oxide (Fe2O3) as an Additive and Substitution of Quartz with POFA on Physico- Mechanical Properties of Porcelain. International Journal of Nanoelectronics and Materials Volume 12, No.2, Apr 175-1847.
18. Tulyaganov D.U., Agathopoulos S., Fernandes H.R., Ferreira J.M.F., 2006. Influence of lithium oxide as auxiliary flux on the properties of triaxial porcelain bodies. Journal of the European Ceramic Society, 26 1131-1139.
19.Chaudhuri S.P., Sarkar P., 1995. Constitution of Porcelain Before and After Heat-Treatment. I: Mineralogical Composition, Journal of the European Ceramic Society, 15 1031-1035.
20. Kong L.B., Huang H., Zhang T.S., Gan Y.B., Ma j., Boey F., Zhang R.F., 2003. Effect of transition metal oxide on mullite whisker formation from mechanochemically activated powders. Materials and Engineeering, A359 75-81.
21. Maslenikova G.N., Stoikova T.V., 2001. Household Porcelain with Mineralizing Additrives. Glass and Ceramics, Vol.58, Nos 7-8.
22. Carrty William M., Senepati U., 1998. Porcelain-Raw Materials, Processing, Phase Evolution, and Mechanical Behaviour. J.Am.Ceramic. Soc,. 81[1] 3-20.
23. Selli N.T., 2015. Investigation of the Whiting Composition for the Porcelain Stoneware Tiles. Acta Physica Polonica A Vol.127 1202-1204.

The Effect of Addition of ZnO to Granite Body on Sintering and Mechanical Properties

Yıl 2021, Cilt: 17 Sayı: 1, 51 - 57, 30.12.2020

Savaş Elmas

https://doi.org/10.18466/cbayarfbe.814870

Öz

In granite body, 1-3-5 wt% ZnO was replaced instead of feldspar and fired in an industrial continuous production kiln. Physical properties of the tiles were determined including dried strength, fired strength, water absorption, fired loss, and colorimeter values. X-Ray Diffraction (XRD), scanning electron microscope (SEM) and energy dispersive X-Ray (EDX) measurements for distinctive microstructural changes and phases formed were done. The fired strength values of the standard and 3% ZnO added body are 399.94kg/cm2, 510.50 kg / cm2, respectively. Water absorption and firing shrinkage values are close to each other. In the analysis of the sample with 3% added ZnO with XRD, it was observed that the solubility of quartz was increased, mullite formation was prevented; besides 27.4 wt.% spinel phase and 13.8 wt.% albite formation was observed.

Anahtar Kelimeler

porcelain stoneware, ceramics, ZnO, sintering, characteristics, microstructure

Kaynakça

1. TSF2019 Faaliyet Raporu. https://serfed.com/upload/raporlar/TSF%202019%20FAAL%C4%B0YET%20RAPORU%20SON.pdf (accessed at 15.10.2020)
2. Paganelli M. and Sighinolfi D., 2009.Effect of Quartz Particle Size on Porcelain Stoneware Sintering by Means of Optical Dilatometry. Ceramic Forum International, Volume 86.
3. Biesuz, M., Abate W.D., Sglavo V., 2018. Porselem stoneware consolidation by flash sintering. Journal of American Ceramic Society, Volume 101, pp.71-81.
4. Mahdi O.S., 2018. Study the Influence of Sintering on the Properties of Porcelain Stoneware Tiles. International Journal of Applied Engineering Research ISSN 0973-4562 Volume 13, Number 6, pp. 3248-3254.
5. Zanelli C., Raimondo M., Guarini G. and Dondi M., 2011. The vitreous phase of porcelain stoneware: Composition, evolution during sintering and physical properties. Journal of Non-crystalline Solids, Volume 357, pp. 3251-3260.
6. Fortuna D., 2000, Ceramic Technology-Sanitaryware. Gruppo Editoriale Faenza Editrice.
7. Ryan W., Radford C., 1987. Whitewares Productions, Testing and Quality Control. The Institute of Ceramics, Pergamon Press.
8. Lundin S. T., 1964. Microstructure of Porcelain pp.93-106 in Microstructure of Ceramic Materials, Proceedings of the American Ceramic Society Symposium, National Bureau of Standards Miscellanesous Publications No.257. National Bureau of Standard, Gaithersburg, MD.
9. Vari A. Drying and Firing of Ceramic Tiles, Modena-Italia , S.A.L.A.srl, via carlo Zucchi,21 A/B.
10. Worral W.E., 1975. Clay and Ceramic Raw Materials, New York, Elsevier Applied Science Publishers.
11. Norton F.H., 1970. Fine Ceramics Technology and Applications,Florida, Robert E.Krieger Publishing Comp,INC. 12. Iqbal Y., Lee W. E., 2000, Microstructural Evolution in Triaxial Porcelain, J.Am. Ceram. Soc., 83 [12] 3121-27. 13. Bhattacharyya S., Snehesh T.S., 2015. Improvement of fired properties in porcelain system by the addition of transition metal oxides, Journal of The Australian Ceramic Society, Volume 51[1], 8-15.
14. Bhattacharya S., Snehish T.S., 2015. Effect of cobalt oxide additive on the fired properties of tri-axial ceramic, Ceramics International 41, 61-67.
15.Bhattacharyya S., Das S.K., Mıtra N.K., 2005. Effect of titania on fired characteristics of triaxial porcelain , Bull. Mater. Sci., Vol. 28, No. 5, August, pp. 445–452. © Indian Academy of Sciences.
16.S.P., 1974. Ceram.Bull.53, 169.
17. Iya S.G.D, Noh M.Z., Razak S.N.A., Sharip N., Kutty A.A., 2019. Effect of Iron (111) Oxide (Fe2O3) as an Additive and Substitution of Quartz with POFA on Physico- Mechanical Properties of Porcelain. International Journal of Nanoelectronics and Materials Volume 12, No.2, Apr 175-1847.
18. Tulyaganov D.U., Agathopoulos S., Fernandes H.R., Ferreira J.M.F., 2006. Influence of lithium oxide as auxiliary flux on the properties of triaxial porcelain bodies. Journal of the European Ceramic Society, 26 1131-1139.
19.Chaudhuri S.P., Sarkar P., 1995. Constitution of Porcelain Before and After Heat-Treatment. I: Mineralogical Composition, Journal of the European Ceramic Society, 15 1031-1035.
20. Kong L.B., Huang H., Zhang T.S., Gan Y.B., Ma j., Boey F., Zhang R.F., 2003. Effect of transition metal oxide on mullite whisker formation from mechanochemically activated powders. Materials and Engineeering, A359 75-81.
21. Maslenikova G.N., Stoikova T.V., 2001. Household Porcelain with Mineralizing Additrives. Glass and Ceramics, Vol.58, Nos 7-8.
22. Carrty William M., Senepati U., 1998. Porcelain-Raw Materials, Processing, Phase Evolution, and Mechanical Behaviour. J.Am.Ceramic. Soc,. 81[1] 3-20.
23. Selli N.T., 2015. Investigation of the Whiting Composition for the Porcelain Stoneware Tiles. Acta Physica Polonica A Vol.127 1202-1204.

Toplam 21 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Mühendislik
Bölüm	Makaleler
Yazarlar	Savaş Elmas 0000-0003-2913-0303
Yayımlanma Tarihi	30 Aralık 2020
Yayımlandığı Sayı	Yıl 2021 Cilt: 17 Sayı: 1

Kaynak Göster

APA	Elmas, S. (2020). The Effect of Addition of ZnO to Granite Body on Sintering and Mechanical Properties. Celal Bayar Üniversitesi Fen Bilimleri Dergisi, 17(1), 51-57. https://doi.org/10.18466/cbayarfbe.814870
AMA	Elmas S. The Effect of Addition of ZnO to Granite Body on Sintering and Mechanical Properties. CBUJOS. Aralık 2020;17(1):51-57. doi:10.18466/cbayarfbe.814870
Chicago	Elmas, Savaş. “The Effect of Addition of ZnO to Granite Body on Sintering and Mechanical Properties”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 17, sy. 1 (Aralık 2020): 51-57. https://doi.org/10.18466/cbayarfbe.814870.
EndNote	Elmas S (01 Aralık 2020) The Effect of Addition of ZnO to Granite Body on Sintering and Mechanical Properties. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 17 1 51–57.
IEEE	S. Elmas, “The Effect of Addition of ZnO to Granite Body on Sintering and Mechanical Properties”, CBUJOS, c. 17, sy. 1, ss. 51–57, 2020, doi: 10.18466/cbayarfbe.814870.
ISNAD	Elmas, Savaş. “The Effect of Addition of ZnO to Granite Body on Sintering and Mechanical Properties”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi 17/1 (Aralık 2020), 51-57. https://doi.org/10.18466/cbayarfbe.814870.
JAMA	Elmas S. The Effect of Addition of ZnO to Granite Body on Sintering and Mechanical Properties. CBUJOS. 2020;17:51–57.
MLA	Elmas, Savaş. “The Effect of Addition of ZnO to Granite Body on Sintering and Mechanical Properties”. Celal Bayar Üniversitesi Fen Bilimleri Dergisi, c. 17, sy. 1, 2020, ss. 51-57, doi:10.18466/cbayarfbe.814870.
Vancouver	Elmas S. The Effect of Addition of ZnO to Granite Body on Sintering and Mechanical Properties. CBUJOS. 2020;17(1):51-7.

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