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Li2O-Al2O3-SiO2-NiO cam-seramiğinin üretimi ve karakterizasyonu

Yıl 2019, , 457 - 465, 31.01.2019
https://doi.org/10.29130/dubited.458191

Öz




Bu çalışmada, Li2O-Al2O3-SiO2-NiO
cam-seramik numunesi geleneksel yöntem kullanılarak üretildi ve X-ışını
kırınımı (XRD) analizi, Fourier dönüşümlü kızılötesi (FTIR) spektroskopisi,
diferansiyel termal analiz (DTA), termogravimetrik analiz (TGA) ve taramalı
elektron mikroskopisi teknikleri kullanılarak karakterize edildi. Numunenin iki
fazlı çok kristalli bir yapıya sahip olduğu görüldü. Fonksiyonel gruplar tespit
edildi. Üretilen numunenin oda sıcaklığı ile 1000 °C aralığında termal
davranışı araştırıldı. Numunenin morfolojisi incelendi ve numune içerisinde
herhangi bir safsızlık tespit edilemedi.




Kaynakça

  • [1] P.W. McMillan, Non-metallic Solids: Glass-ceramics, 1st Edition, London, England: Academic Press, 1964, p. 1.
  • [2] E.D. Zanotto, “A bright future for glass-ceramics,” American Ceramic Society Bulletin, vol. 89, no. 8, pp. 19-27, 2010.
  • [3] Ö. Kaygılı, “Radyasyonun cam-seramik maddelerin kristalleşme ve mekanik özellikleri üzerine etkisi,” Yüksek lisans tezi, Fizik Bölümü, Fırat Üniversitesi, Elazığ, Türkiye, 2005.
  • [4] S. Barbi, P. Miselli, and C. Siligardi, “Failure analysis of glazed LAS glass-ceramic containing cerium oxide,” Ceramics International, vol. 43, no. 1, pp. 1472-1478, 2017.
  • [5] R. Krsmanovic, S. Bals, G. Bertoni, and G.V. Tendeloo, “Structural characterization of Erdoped Li2O-Al2O3-SiO2 glass ceramics,” Optical Materials, vol. 30, no. 7, pp. 1183-1188, 2008.
  • [6] O. Kaygili, and H. Yavuz, “The effects of gamma irradiation on non-isothermal crystallization kinetics and microhardness of the Li2O-Al2O3-SiO2 glass–ceramic,” Journal of Thermal Analysis and Calorimetry, vol. 102, no. 2, pp. 681-684, 2010.
  • [7] Z. Qing, “The effects of B2O3 on the microstructure and properties of lithium aluminosilicate glass-ceramics for LTCC applications,” Materials Letters, vol. 212, pp. 126-129, 2018.
  • [8] T. Yang, and S. Liu, “Li2O-Al2O3-SiO2 glass–ceramic coating on a porous silica ceramic substrate,” Journal of Alloys and Compounds, vol. 600, pp. 51-54, 2014.
  • [9] B. Li, S. Wang, and Y. Fang, “Effect of Cr2O3 addition on crystallization, microstructure and properties of Li2O-Al2O3-SiO2 glass-ceramics,” Journal of Alloys and Compounds, vol. 693, pp. 9-15, 2017.
  • [10] X. Guo, and H. Yang, “Effects of fluorine on crystallization, structure and performances of lithium aluminosilcate glass ceramic,” Materials Research Bulletin, vol. 41, no. 2, pp. 396-405, 2006.
  • [11] L. Lilensten, Q. Fu, B.R. Wheaton, A.J. Credle, R.L. Stewart, and J.T. Kohli, “Kinetic study on lithium-aluminosilicate (LAS) glass-ceramics containing MgO and ZnO,” Ceramics International, vol. 40, no. 8, pp. 11657-11661, 2014.
  • [12] A.M. Hu, K.M. Liang, F. Zhou, G.L. Wang, and F. Peng, “Phase transformations of Li2OAl2O3-SiO2 glasses with CeO2 addition,” Ceramics International, vol. 31, no. 1, pp. 11-14, 2005.
  • [13] I. Alekseeva, O. Dymshits, M. Tsenter, and A. Zhilin, “Influence of various alkali and divalent metal oxides on phase transformations in NiO-doped glasses of the Li2O-Al2O3-SiO2-TiO2 system,” Journal of Non-Crystalline Solids, vol. 357, no. 11-13, pp. 2209-2214, 2011.
  • [14] P. Lu, Y. Zheng, J. Cheng, and D. Guo, “Effect of La2O3 addition on crystallization and properties of Li2O-Al2O3-SiO2 glass-ceramics,” Ceramics International, vol. 39, no. 7, pp. 8207-8212, 2013.
  • [15] B.D. Cullity, Elements of X–ray Diffraction. 2nd Edition, Massachusetts, USA: Addison– Wesley Publishing Company, 1978, p. 102.
  • [16] O. Kaygili, “Synthesis and characterization of Na2O–CaO–SiO2 glass–ceramic,” Journal of Thermal Analysis and Calorimetry, vol. 117, no. 1, pp. 223-227, 2014.
  • [17] K. Laczka, K. Cholewa-Kowalska, and M. Borczuch-Laczka, “Thermal and spectroscopic characterization of glasses and glass–ceramics of Li2O–Al2O3–SiO2 (LAS) system,” Journal of Molecular Structure, vol. 1068, pp. 275-282, 2014.
  • [18] Y. Li, K. Liang, J. Cao, and B. Xu, “Spectroscopy and structural state of V4+ ions in lithium aluminosilicate glass and glass–ceramics,” Journal of the Non-Crystalline Solids, vol. 356, no. 9-10, pp. 502-508, 2010.
  • [19] D. Feng, Y. Zhu, F. Li, and Z. Li, “Influence investigation of CaF2 on the LAS based glassceramics and the glass-ceramic/diamond composites,” Journal of the European Ceramic Society, vol.36, no. 10, pp. 2579-2585, 2016.
  • [20] D. Baciu, and J. Simitzis, “Synthesis and characterization of a calcium silicate bioactive glass,” Journal of Optoelectronics and Advanced Materials, vol. 9, no. 11, pp. 3320-3324, 2007.
  • [21] V.O. Soares, O. Peitl and E.D. Zanotto, “New sintered Li2O–Al2O3–SiO2 ultra-low expansion glass-ceramic,” Journal of the American Ceramic Society, vol. 96, no. 4, pp. 1143–1149, 2013.
  • [22] A. Zocca, C.M. Gomes, E. Bernardo, R. Müller, J. Günster and P. Colombo, “LAS glass– ceramic scaffolds by three-dimensional printing,” Journal of the European Ceramic Society, vol. 33, no. 9, pp. 1525-1533, 2013.
  • [23] L. Xia, G.W. Wen, L. Song and X.Y. Wang, “The effect of aluminum sources on synthesis of low expansion glass–ceramics in lithia–alumina–silica system by sol–gel route,” Journal of NonCrystalline Solids, vol. 355, no. 48-49, pp. 2349-2354, 2009.
  • [24] D.U. Tulyaganov, S. Agathopoulos, H.R. Fernandes and J.M.F. Ferreira, “Synthesis of lithium aluminosilacate glass and glass-ceramics from spodumene material,” Ceramics International, vol. 30, no.6, pp. 1023-1030, 2004.
  • [25] H.R. Fernandes, D.U. Tulyaganov, M.J. Pascual and J.M.F. Ferreira, “Structure–property relationships and densification-crystallization behaviours of simplified lithium disilicate glass compositions,” Ceramics International, vol. 40, no. 1, pp. 129-140, 2014.

Production and characterization of Li2O-Al2O3-SiO2-NiO glassceramic

Yıl 2019, , 457 - 465, 31.01.2019
https://doi.org/10.29130/dubited.458191

Öz

In this study, a Li2O-Al2O3-SiO2-NiO glass-ceramic sample was produced using the conventional method and
it was characterized by X-ray diffraction (XRD) analysis, Fourier transform infrared (FTIR) spectroscopy,
differential thermal analysis (DTA), thermogravimetric analysis (TGA) and scanning electron microscopy
(SEM) techniques. It was seen that the sample has the biphasic polycrystalline structure. The bands belonging to
the vibration modes of Si-O-Si ve Si-O-Al bonds were observed in the FTIR spectrum. The thermal behavior of
the as-produced sample was investigated in the range of room temperature to 1000 °C. The morphology of the
sample was investigated and no impurity in the sample was detected.

Kaynakça

  • [1] P.W. McMillan, Non-metallic Solids: Glass-ceramics, 1st Edition, London, England: Academic Press, 1964, p. 1.
  • [2] E.D. Zanotto, “A bright future for glass-ceramics,” American Ceramic Society Bulletin, vol. 89, no. 8, pp. 19-27, 2010.
  • [3] Ö. Kaygılı, “Radyasyonun cam-seramik maddelerin kristalleşme ve mekanik özellikleri üzerine etkisi,” Yüksek lisans tezi, Fizik Bölümü, Fırat Üniversitesi, Elazığ, Türkiye, 2005.
  • [4] S. Barbi, P. Miselli, and C. Siligardi, “Failure analysis of glazed LAS glass-ceramic containing cerium oxide,” Ceramics International, vol. 43, no. 1, pp. 1472-1478, 2017.
  • [5] R. Krsmanovic, S. Bals, G. Bertoni, and G.V. Tendeloo, “Structural characterization of Erdoped Li2O-Al2O3-SiO2 glass ceramics,” Optical Materials, vol. 30, no. 7, pp. 1183-1188, 2008.
  • [6] O. Kaygili, and H. Yavuz, “The effects of gamma irradiation on non-isothermal crystallization kinetics and microhardness of the Li2O-Al2O3-SiO2 glass–ceramic,” Journal of Thermal Analysis and Calorimetry, vol. 102, no. 2, pp. 681-684, 2010.
  • [7] Z. Qing, “The effects of B2O3 on the microstructure and properties of lithium aluminosilicate glass-ceramics for LTCC applications,” Materials Letters, vol. 212, pp. 126-129, 2018.
  • [8] T. Yang, and S. Liu, “Li2O-Al2O3-SiO2 glass–ceramic coating on a porous silica ceramic substrate,” Journal of Alloys and Compounds, vol. 600, pp. 51-54, 2014.
  • [9] B. Li, S. Wang, and Y. Fang, “Effect of Cr2O3 addition on crystallization, microstructure and properties of Li2O-Al2O3-SiO2 glass-ceramics,” Journal of Alloys and Compounds, vol. 693, pp. 9-15, 2017.
  • [10] X. Guo, and H. Yang, “Effects of fluorine on crystallization, structure and performances of lithium aluminosilcate glass ceramic,” Materials Research Bulletin, vol. 41, no. 2, pp. 396-405, 2006.
  • [11] L. Lilensten, Q. Fu, B.R. Wheaton, A.J. Credle, R.L. Stewart, and J.T. Kohli, “Kinetic study on lithium-aluminosilicate (LAS) glass-ceramics containing MgO and ZnO,” Ceramics International, vol. 40, no. 8, pp. 11657-11661, 2014.
  • [12] A.M. Hu, K.M. Liang, F. Zhou, G.L. Wang, and F. Peng, “Phase transformations of Li2OAl2O3-SiO2 glasses with CeO2 addition,” Ceramics International, vol. 31, no. 1, pp. 11-14, 2005.
  • [13] I. Alekseeva, O. Dymshits, M. Tsenter, and A. Zhilin, “Influence of various alkali and divalent metal oxides on phase transformations in NiO-doped glasses of the Li2O-Al2O3-SiO2-TiO2 system,” Journal of Non-Crystalline Solids, vol. 357, no. 11-13, pp. 2209-2214, 2011.
  • [14] P. Lu, Y. Zheng, J. Cheng, and D. Guo, “Effect of La2O3 addition on crystallization and properties of Li2O-Al2O3-SiO2 glass-ceramics,” Ceramics International, vol. 39, no. 7, pp. 8207-8212, 2013.
  • [15] B.D. Cullity, Elements of X–ray Diffraction. 2nd Edition, Massachusetts, USA: Addison– Wesley Publishing Company, 1978, p. 102.
  • [16] O. Kaygili, “Synthesis and characterization of Na2O–CaO–SiO2 glass–ceramic,” Journal of Thermal Analysis and Calorimetry, vol. 117, no. 1, pp. 223-227, 2014.
  • [17] K. Laczka, K. Cholewa-Kowalska, and M. Borczuch-Laczka, “Thermal and spectroscopic characterization of glasses and glass–ceramics of Li2O–Al2O3–SiO2 (LAS) system,” Journal of Molecular Structure, vol. 1068, pp. 275-282, 2014.
  • [18] Y. Li, K. Liang, J. Cao, and B. Xu, “Spectroscopy and structural state of V4+ ions in lithium aluminosilicate glass and glass–ceramics,” Journal of the Non-Crystalline Solids, vol. 356, no. 9-10, pp. 502-508, 2010.
  • [19] D. Feng, Y. Zhu, F. Li, and Z. Li, “Influence investigation of CaF2 on the LAS based glassceramics and the glass-ceramic/diamond composites,” Journal of the European Ceramic Society, vol.36, no. 10, pp. 2579-2585, 2016.
  • [20] D. Baciu, and J. Simitzis, “Synthesis and characterization of a calcium silicate bioactive glass,” Journal of Optoelectronics and Advanced Materials, vol. 9, no. 11, pp. 3320-3324, 2007.
  • [21] V.O. Soares, O. Peitl and E.D. Zanotto, “New sintered Li2O–Al2O3–SiO2 ultra-low expansion glass-ceramic,” Journal of the American Ceramic Society, vol. 96, no. 4, pp. 1143–1149, 2013.
  • [22] A. Zocca, C.M. Gomes, E. Bernardo, R. Müller, J. Günster and P. Colombo, “LAS glass– ceramic scaffolds by three-dimensional printing,” Journal of the European Ceramic Society, vol. 33, no. 9, pp. 1525-1533, 2013.
  • [23] L. Xia, G.W. Wen, L. Song and X.Y. Wang, “The effect of aluminum sources on synthesis of low expansion glass–ceramics in lithia–alumina–silica system by sol–gel route,” Journal of NonCrystalline Solids, vol. 355, no. 48-49, pp. 2349-2354, 2009.
  • [24] D.U. Tulyaganov, S. Agathopoulos, H.R. Fernandes and J.M.F. Ferreira, “Synthesis of lithium aluminosilacate glass and glass-ceramics from spodumene material,” Ceramics International, vol. 30, no.6, pp. 1023-1030, 2004.
  • [25] H.R. Fernandes, D.U. Tulyaganov, M.J. Pascual and J.M.F. Ferreira, “Structure–property relationships and densification-crystallization behaviours of simplified lithium disilicate glass compositions,” Ceramics International, vol. 40, no. 1, pp. 129-140, 2014.
Toplam 25 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Ömer Kaygili 0000-0002-2321-1455

Yayımlanma Tarihi 31 Ocak 2019
Yayımlandığı Sayı Yıl 2019

Kaynak Göster

APA Kaygili, Ö. (2019). Li2O-Al2O3-SiO2-NiO cam-seramiğinin üretimi ve karakterizasyonu. Duzce University Journal of Science and Technology, 7(1), 457-465. https://doi.org/10.29130/dubited.458191
AMA Kaygili Ö. Li2O-Al2O3-SiO2-NiO cam-seramiğinin üretimi ve karakterizasyonu. DÜBİTED. Ocak 2019;7(1):457-465. doi:10.29130/dubited.458191
Chicago Kaygili, Ömer. “Li2O-Al2O3-SiO2-NiO Cam-seramiğinin üretimi Ve Karakterizasyonu”. Duzce University Journal of Science and Technology 7, sy. 1 (Ocak 2019): 457-65. https://doi.org/10.29130/dubited.458191.
EndNote Kaygili Ö (01 Ocak 2019) Li2O-Al2O3-SiO2-NiO cam-seramiğinin üretimi ve karakterizasyonu. Duzce University Journal of Science and Technology 7 1 457–465.
IEEE Ö. Kaygili, “Li2O-Al2O3-SiO2-NiO cam-seramiğinin üretimi ve karakterizasyonu”, DÜBİTED, c. 7, sy. 1, ss. 457–465, 2019, doi: 10.29130/dubited.458191.
ISNAD Kaygili, Ömer. “Li2O-Al2O3-SiO2-NiO Cam-seramiğinin üretimi Ve Karakterizasyonu”. Duzce University Journal of Science and Technology 7/1 (Ocak 2019), 457-465. https://doi.org/10.29130/dubited.458191.
JAMA Kaygili Ö. Li2O-Al2O3-SiO2-NiO cam-seramiğinin üretimi ve karakterizasyonu. DÜBİTED. 2019;7:457–465.
MLA Kaygili, Ömer. “Li2O-Al2O3-SiO2-NiO Cam-seramiğinin üretimi Ve Karakterizasyonu”. Duzce University Journal of Science and Technology, c. 7, sy. 1, 2019, ss. 457-65, doi:10.29130/dubited.458191.
Vancouver Kaygili Ö. Li2O-Al2O3-SiO2-NiO cam-seramiğinin üretimi ve karakterizasyonu. DÜBİTED. 2019;7(1):457-65.