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MERMER ATIĞI İLAVESİ İLE MAT SIR BİLEŞİMLERİNİN ÜRETİMİ

Year 2018, Volume: 26 Issue: 3, 123 - 131, 30.09.2018
https://doi.org/10.31796/ogummf.412312

Abstract

Mermerin tüm dünyadaki yaygın
kullanımıyla birlikte, mermer madenciliği ve üretilen atık miktarı da
artmıştır. Bu çalışmada, yerel bir mermer işletmesinden alınan mermer tozları
farklı oranlarda standart mat sır kompozisyonunda kullanılmış ve etkileri
incelenmiştir. Mermer atıklarının sır yapısının özelliklerine olan etkileri;
mikroyapıda meydana gelen değişiklikler ve faz oluşumları, ısıl davranış, renk
parametreleri ve sır yüzeylerinin parlaklığı bakımından araştırılmıştır.
Hazırlanan sır reçetelerine renk üzerindeki etkilerini incelemek amacı ile
bakır oksit (CuO) ilave edilmiştir. Renklendirici oksit kullanılmadan
hazırlanan reçetelerde % 20’nin üzerinde mermer atığı içeren sırlarda beyazlık
değeri bir miktar artmıştır. Atık miktarı arttıkça, sır yüzeyinde metalik
görüntü ve daha derin bir doku oluşmuştur. Çalışmanın son aşamasında üretilen
sırlar seramik formlara uygulanmıştır.

References

  • Acchar W, Vieira FA, Hotza D. Effect of marble and granite sludge in clay materials, Materials Science and Engineering: A 2006; 419 (1-2): 306-309.
  • Al-Hamaiedh H. Reuse of Marble Sludge Slime in Ceramic Industry. Jordan Journal of Civil Engineering 2010; 4 (3):264-271.
  • Aliabdo AA, Elmoaty AEM, Auda EM. Re-use of waste marble dust in the production of cement and concrete. Construction and Building Materials 2014; 50: 28-41.
  • Andreola F, Barbieri L, Lancellotti I. Recycling of industrial wastes in ceramic manufacturing: state of art and glass case studies. Ceramics International 2016; 42 (12): 13333-13338.
  • Anwar A, Ahmad S, Husain S. Salvage of ceramic waste and marble dust for the refinement of sustainable concrete. International Journal of Civil Engineering and Technology (IJCIET) 2015; 6 (9): 79-92.
  • Britt J.The Complete Guide to High-Fire Glazes: Glazing & Firing at Cone 10, Sterling Publishing Company, Inc., 2007.
  • Burleson M. The Ceramic Glaze Handbook: Materials, Techniques, Formulas, Lark Books; Revised edition, 2003.
  • Buyuksagis IS, Uygunoglu T, Tatar E, “Investigation on the usage of waste marble powder in cement-based adhesive mortar”, Construction and Building Materials 2017; 154 (15): 734-742.
  • Casasola R, Rincón JM, Romero M. Glass-ceramic glazes for ceramic tiles-a review. Journal of Material Science 2012; 47: 553-582.
  • Corinaldesi V, Moriconi G, Naik TR. Characterization of marble powder for its use in mortar and concrete. Construction and Building Materials 2010; 24:113-117.
  • Celik MY, Sabah E. Geological and technical characterization of Iscehisar (Afyon-Turkey) marble deposits and the impact of marble waste on environmental pollution, Article in Journal of Environmental Management 2008; 87 (1):106-16.
  • Da Silva RC, Pianaro SA, Tebcherani SM. Preparation and characterization of glazes from combinations of different industrial wastes. Ceramics International 2012; 38 (4): 2725-2731.
  • El Haggar S. Sustainable Industrial Design and Waste Management: Cradle-to-Cradle for Sustainable Development, Academic Press, p.346, 2010.
  • Erçikdi B, Külekçi G, Yilmaz T. Utilization of granulated marble wastes and waste bricks as mineral admixture in cemented paste backfill of sulphide-rich tailings. Construction and Building Materials 2015; 93: 573-583.
  • Eppler RA, Eppler DR. Glazes and Glass Coatings, Westerville, OH: American Ceramic Society, 2000.
  • Erdoğan HB, Yeprem HA, Günay E. Evaluating waste marble dust as floor tile. Materials Testing 2011; 53 (5): 290-294.
  • Genç S. Artistic Ceramic Glazes (Artistik Seramik Sırları) (In Turkish), Turkey, Boyut Press Inc., 2013.
  • Hamer F, Hamer J. The Potter's Dictionary of Materials and Techniques, USA, University of Pennsylvania Press, 2004.
  • Limbachiya MC, Roberts JJ. Construction Demolition Waste. Thomas Telford. 2004.
  • Karasu B, Çakı M, Turan S. The development and characterization of zinc crystal glazes used for amakusa-like soft porcelains. Journal of the European Ceramic Society 2000; 20 (12): 2225-2231.
  • Kartal, A., Sır ve Sırlama Tekniği, Çizgi Matbaacılık, Ankara, 1998.
  • Marras G, Careddu N, Internicola C., Siotto G. Recovery and reuse of marble powder by-product, Conference: Global Stone Congress; 2010; Spain: pp. 1-5.
  • Menezes RR, Santana LNL, Neves GA, Ferreira HC. Environmental Contamination, Chapter (11) Recycling of Mine Wastes as Ceramic Raw Materials: An Alternative to Avoid Environmental Contamination. 1st edition, InTech, ISBN: 978-953- 51-0120-8, DOI: 10.5772/31913, 2012.
  • Montero MA, Jordan MM, Hernandez-Crespo MS and Sanfeliu T. The use of sewage sludge and marble residues in the manufacture of ceramic tile bodies. Applied Clay Science 2009; 46 (4): 404-408.
  • Nsiah JK. Ceramics effect of different glaze-base systems on generation of colour. Quarterly Science Vision 2004; 9 (1-2): 1-10.
  • Rhodes, D. Clay and Glazes for the Potter, Krause Publications; 3 Rev Exp edition, 2000.
  • Romualdo Rodrigues Menezes, Lisiane Navarro L. Santana, Gelmires Araújo Neves and Heber Carlos Ferreira (2012). Recycling of Mine Wastes as Ceramic Raw Materials: An Alternative to Avoid Environmental Contamination, Environmental Contamination, Dr. Jatin Srivastava (Ed.), ISBN: 978-953-51-0120-8.
  • Sarjahani R, Nemati HR, Attar MS. Effect of pigments on crystal phases in non-fritted matte glaze. Ceramic Materials 2010; 62 (4): 565-568.
  • Sezer N. Production of Precipitated Calcıum Carbonate from Marble Wastes, The Graduate School Of Natural And Applied Sciences of Middle East Technical Unıversıty, The Degree Of Master Of Science In Mining Engineering, Ankara, 2013.
  • Shah W, Nafees M, Iqbal M. Evaluation of marble slurry waste for preparatıon of commercıal grade cement. J. Engg. and Appl. Sci. 2015; 34 (1):28-37.
  • Sheikhattar M, Attar H, Sharafi S, Carty W. Influence of surface crystallinity on the surface roughness of different ceramic glazes. Materials Characterization 2016; 118: 570-574.
  • Shirazi EK. Reusing of stone waste in various industrial activities. 2nd International Conference on Environmental Science and Development IPCBEE; 2011; Vol.4, IACSIT Press, Singapore, pp. 217-219.
  • Sutcu M, Alptekin H, Erdogmus E, Er Y, and Gencel O. Characteristics of fired clay bricks with waste marble powder addition as building materials. Construction and Building Materials 2015; 82: 1-8.
  • Tosun A, Tatar Ç. Investigation on the Possibilities to Increase Marble Export of Turkey, Dokuz Eylül University, Engineering Faculty, Journal of Science and Engineering 2007; 9 (3): 13-20.
  • Tucci A, Esposito L, Rastelli E, Palmonari C, Rambaldi E. Use of soda-lime scrap-glass as a fluxing agent in a porcelain stoneware tile mix. Journal of the European Ceramic Society 2004; 24: 83-92.
  • Yeşilay S, Çakı M, Ceylantekin R. Recycling of Afyon-Iscehisar marble waste in transparent stoneware glaze recipes. J Aust Ceram Soc 2017; 53:475–484.
  • Xu J, Yasinzai M, Lev B. Proceedings of the Sixth International Conference on Management Science and Engineering Management: Focused on Electrical and Information Technology, Part IV: Industrial Engineering, Springer Science & Business Media, p. 398 , 2012.
Year 2018, Volume: 26 Issue: 3, 123 - 131, 30.09.2018
https://doi.org/10.31796/ogummf.412312

Abstract

References

  • Acchar W, Vieira FA, Hotza D. Effect of marble and granite sludge in clay materials, Materials Science and Engineering: A 2006; 419 (1-2): 306-309.
  • Al-Hamaiedh H. Reuse of Marble Sludge Slime in Ceramic Industry. Jordan Journal of Civil Engineering 2010; 4 (3):264-271.
  • Aliabdo AA, Elmoaty AEM, Auda EM. Re-use of waste marble dust in the production of cement and concrete. Construction and Building Materials 2014; 50: 28-41.
  • Andreola F, Barbieri L, Lancellotti I. Recycling of industrial wastes in ceramic manufacturing: state of art and glass case studies. Ceramics International 2016; 42 (12): 13333-13338.
  • Anwar A, Ahmad S, Husain S. Salvage of ceramic waste and marble dust for the refinement of sustainable concrete. International Journal of Civil Engineering and Technology (IJCIET) 2015; 6 (9): 79-92.
  • Britt J.The Complete Guide to High-Fire Glazes: Glazing & Firing at Cone 10, Sterling Publishing Company, Inc., 2007.
  • Burleson M. The Ceramic Glaze Handbook: Materials, Techniques, Formulas, Lark Books; Revised edition, 2003.
  • Buyuksagis IS, Uygunoglu T, Tatar E, “Investigation on the usage of waste marble powder in cement-based adhesive mortar”, Construction and Building Materials 2017; 154 (15): 734-742.
  • Casasola R, Rincón JM, Romero M. Glass-ceramic glazes for ceramic tiles-a review. Journal of Material Science 2012; 47: 553-582.
  • Corinaldesi V, Moriconi G, Naik TR. Characterization of marble powder for its use in mortar and concrete. Construction and Building Materials 2010; 24:113-117.
  • Celik MY, Sabah E. Geological and technical characterization of Iscehisar (Afyon-Turkey) marble deposits and the impact of marble waste on environmental pollution, Article in Journal of Environmental Management 2008; 87 (1):106-16.
  • Da Silva RC, Pianaro SA, Tebcherani SM. Preparation and characterization of glazes from combinations of different industrial wastes. Ceramics International 2012; 38 (4): 2725-2731.
  • El Haggar S. Sustainable Industrial Design and Waste Management: Cradle-to-Cradle for Sustainable Development, Academic Press, p.346, 2010.
  • Erçikdi B, Külekçi G, Yilmaz T. Utilization of granulated marble wastes and waste bricks as mineral admixture in cemented paste backfill of sulphide-rich tailings. Construction and Building Materials 2015; 93: 573-583.
  • Eppler RA, Eppler DR. Glazes and Glass Coatings, Westerville, OH: American Ceramic Society, 2000.
  • Erdoğan HB, Yeprem HA, Günay E. Evaluating waste marble dust as floor tile. Materials Testing 2011; 53 (5): 290-294.
  • Genç S. Artistic Ceramic Glazes (Artistik Seramik Sırları) (In Turkish), Turkey, Boyut Press Inc., 2013.
  • Hamer F, Hamer J. The Potter's Dictionary of Materials and Techniques, USA, University of Pennsylvania Press, 2004.
  • Limbachiya MC, Roberts JJ. Construction Demolition Waste. Thomas Telford. 2004.
  • Karasu B, Çakı M, Turan S. The development and characterization of zinc crystal glazes used for amakusa-like soft porcelains. Journal of the European Ceramic Society 2000; 20 (12): 2225-2231.
  • Kartal, A., Sır ve Sırlama Tekniği, Çizgi Matbaacılık, Ankara, 1998.
  • Marras G, Careddu N, Internicola C., Siotto G. Recovery and reuse of marble powder by-product, Conference: Global Stone Congress; 2010; Spain: pp. 1-5.
  • Menezes RR, Santana LNL, Neves GA, Ferreira HC. Environmental Contamination, Chapter (11) Recycling of Mine Wastes as Ceramic Raw Materials: An Alternative to Avoid Environmental Contamination. 1st edition, InTech, ISBN: 978-953- 51-0120-8, DOI: 10.5772/31913, 2012.
  • Montero MA, Jordan MM, Hernandez-Crespo MS and Sanfeliu T. The use of sewage sludge and marble residues in the manufacture of ceramic tile bodies. Applied Clay Science 2009; 46 (4): 404-408.
  • Nsiah JK. Ceramics effect of different glaze-base systems on generation of colour. Quarterly Science Vision 2004; 9 (1-2): 1-10.
  • Rhodes, D. Clay and Glazes for the Potter, Krause Publications; 3 Rev Exp edition, 2000.
  • Romualdo Rodrigues Menezes, Lisiane Navarro L. Santana, Gelmires Araújo Neves and Heber Carlos Ferreira (2012). Recycling of Mine Wastes as Ceramic Raw Materials: An Alternative to Avoid Environmental Contamination, Environmental Contamination, Dr. Jatin Srivastava (Ed.), ISBN: 978-953-51-0120-8.
  • Sarjahani R, Nemati HR, Attar MS. Effect of pigments on crystal phases in non-fritted matte glaze. Ceramic Materials 2010; 62 (4): 565-568.
  • Sezer N. Production of Precipitated Calcıum Carbonate from Marble Wastes, The Graduate School Of Natural And Applied Sciences of Middle East Technical Unıversıty, The Degree Of Master Of Science In Mining Engineering, Ankara, 2013.
  • Shah W, Nafees M, Iqbal M. Evaluation of marble slurry waste for preparatıon of commercıal grade cement. J. Engg. and Appl. Sci. 2015; 34 (1):28-37.
  • Sheikhattar M, Attar H, Sharafi S, Carty W. Influence of surface crystallinity on the surface roughness of different ceramic glazes. Materials Characterization 2016; 118: 570-574.
  • Shirazi EK. Reusing of stone waste in various industrial activities. 2nd International Conference on Environmental Science and Development IPCBEE; 2011; Vol.4, IACSIT Press, Singapore, pp. 217-219.
  • Sutcu M, Alptekin H, Erdogmus E, Er Y, and Gencel O. Characteristics of fired clay bricks with waste marble powder addition as building materials. Construction and Building Materials 2015; 82: 1-8.
  • Tosun A, Tatar Ç. Investigation on the Possibilities to Increase Marble Export of Turkey, Dokuz Eylül University, Engineering Faculty, Journal of Science and Engineering 2007; 9 (3): 13-20.
  • Tucci A, Esposito L, Rastelli E, Palmonari C, Rambaldi E. Use of soda-lime scrap-glass as a fluxing agent in a porcelain stoneware tile mix. Journal of the European Ceramic Society 2004; 24: 83-92.
  • Yeşilay S, Çakı M, Ceylantekin R. Recycling of Afyon-Iscehisar marble waste in transparent stoneware glaze recipes. J Aust Ceram Soc 2017; 53:475–484.
  • Xu J, Yasinzai M, Lev B. Proceedings of the Sixth International Conference on Management Science and Engineering Management: Focused on Electrical and Information Technology, Part IV: Industrial Engineering, Springer Science & Business Media, p. 398 , 2012.
There are 37 citations in total.

Details

Primary Language Turkish
Subjects Material Production Technologies
Journal Section Research Articles
Authors

Selvin Yesilay 0000-0002-8217-3874

Publication Date September 30, 2018
Acceptance Date October 9, 2018
Published in Issue Year 2018 Volume: 26 Issue: 3

Cite

APA Yesilay, S. (2018). MERMER ATIĞI İLAVESİ İLE MAT SIR BİLEŞİMLERİNİN ÜRETİMİ. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi, 26(3), 123-131. https://doi.org/10.31796/ogummf.412312
AMA Yesilay S. MERMER ATIĞI İLAVESİ İLE MAT SIR BİLEŞİMLERİNİN ÜRETİMİ. ESOGÜ Müh Mim Fak Derg. September 2018;26(3):123-131. doi:10.31796/ogummf.412312
Chicago Yesilay, Selvin. “MERMER ATIĞI İLAVESİ İLE MAT SIR BİLEŞİMLERİNİN ÜRETİMİ”. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi 26, no. 3 (September 2018): 123-31. https://doi.org/10.31796/ogummf.412312.
EndNote Yesilay S (September 1, 2018) MERMER ATIĞI İLAVESİ İLE MAT SIR BİLEŞİMLERİNİN ÜRETİMİ. Eskişehir Osmangazi Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi 26 3 123–131.
IEEE S. Yesilay, “MERMER ATIĞI İLAVESİ İLE MAT SIR BİLEŞİMLERİNİN ÜRETİMİ”, ESOGÜ Müh Mim Fak Derg, vol. 26, no. 3, pp. 123–131, 2018, doi: 10.31796/ogummf.412312.
ISNAD Yesilay, Selvin. “MERMER ATIĞI İLAVESİ İLE MAT SIR BİLEŞİMLERİNİN ÜRETİMİ”. Eskişehir Osmangazi Üniversitesi Mühendislik ve Mimarlık Fakültesi Dergisi 26/3 (September 2018), 123-131. https://doi.org/10.31796/ogummf.412312.
JAMA Yesilay S. MERMER ATIĞI İLAVESİ İLE MAT SIR BİLEŞİMLERİNİN ÜRETİMİ. ESOGÜ Müh Mim Fak Derg. 2018;26:123–131.
MLA Yesilay, Selvin. “MERMER ATIĞI İLAVESİ İLE MAT SIR BİLEŞİMLERİNİN ÜRETİMİ”. Eskişehir Osmangazi Üniversitesi Mühendislik Ve Mimarlık Fakültesi Dergisi, vol. 26, no. 3, 2018, pp. 123-31, doi:10.31796/ogummf.412312.
Vancouver Yesilay S. MERMER ATIĞI İLAVESİ İLE MAT SIR BİLEŞİMLERİNİN ÜRETİMİ. ESOGÜ Müh Mim Fak Derg. 2018;26(3):123-31.

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