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EFFECT OF PARTICLE SIZE OF ALUMINUM ON THE DEVELOPMENT OF CLINOPTILOLITE BASED POROUS CERAMIC FILTERS

Yıl 2017, Sayı: 039, 43 - 48, 15.12.2017

Öz

This paper reports the effect
of
particle size of Al-metal powder addition on the development of
clinoptilolite based porous ceramic filters. The clinoptilolite particles was
mixed with 10 wt.%
of Al-powder and the three different clinoptilolite-metal powder mixture samples were prepared
namely: (i) coarse sample (used large size of Al-powder by mixing in dry ball
mill for 5 min.), (ii) moderate sample (using fine size of Al-powder) and (iii)
fine sample (planetary milling of the moderate sample in an aqueous medium for
1 hour). The mixtures were shaped by uniaxial pressing at 50 MPa and later
sintered at the temperatures of 1200°C for 1 hour under air atmosphere. The microstructure and phase evolution were
investigated by SEM and XRD, respectively. The coarse sample indicated corundum
crystallization with silicon (Si) and with poor cristobalite crystallization.
The cristobalite crystallization is prodominantly for the fine and moderate
samples. Except the planetery milled sample (fine) the porosities of the
samples were good enough (~28%) but the pore sizes were different; the
coarse sample showed large pores up to 150
mm in size, the moderate sample produced relatively fine and narrow pore
size distribution (4-65
mm). The
results indicated that the moderate sample leads to production of ceramic
filter with high selectivity during filtration.

Kaynakça

  • [1]Wu, S., Gesing, A.J., Travitzky, N.A., Claussen, N., Fabrication and properties of Al-infiltrated RBAO-based composites, J. Eur. Ceram. Soc. 7, 277–281, (1991).
  • [2]Claussen N., T. S.,Wu Le, , Low-shrinkage reaction-bonded alumina, J. Eur. Ceram. Soc. 5 29–35, (1989).
  • [3]Ebadzadeh, T., Porous mullite-ZrO2 composites from reaction sintering of zircon aluminium, Ceram. Int. 31, 1091-1095, (2005).
  • [4]Esharghawi, A., Penot, C., Nardou, F., Contribution to porous mullite synthesis from clays by adding Al and Mg powders, J. Eur. Ceram. Soc 29, 31–38, (2009).
  • [5]Sahraoui, T., Belhouchet, H., Heraiz, M., Brihi, N., Guermat, A., The effects of mechanical activation on the sintering of mullite produced from kaolin and aluminum powder, Ceram. Int. 42, 12185–12193, (2016).
  • [6]Issaoui, M., Limousy, L., Lebeau, B., Bouaziz, J., Fourati, M., Design and characterization of flat membrane supports elaborated from kaolin and aluminum powders, C. R. Chimie 19, 496-504, (2016).
  • [7]Balmori-Ramirez, H., Rocha-Range1, E., Refugio-Garcia, E., C. Bradt, R., Dense Mullite from Attrition-Milled Kyanite and Aluminum Metal, J.Am. Ceram. Soc. 87 (1) 144-146, (2004).
  • [8]Sadika, C., El Amranib, I. E., Albizane, A., Effect of andalusite rich schist grain size and the addition of metallic aluminumpowder on the properties of silica–alumina refractory, J. Asian Ceram. Soc. 1, 351–355, (2013).
  • [9]Kingery, W.D., Bowen, H.K., Uhlmann, D.R., Introduction to Ceramics, Wiley, New York, (1976).
  • [10]Essl, F., Bruhn, J., Janssen, R., Claussen, N., Wet milling of Al-containing powder mixtures as precursor materials for reaction bonding of alumina (RBAO) and reaction sintering of alumina-aluminide alloys (3A), Mater. Chem. Phys. 61, 69-77 (1999).
  • [11]Andreola, F., Manfredini, T., Passaglia, E., Pellacani, G.C., Pozzi P., Romagnoli, M., Utilazition of an Italian Zeolitite in Ceramic Bodies, Mater. Eng. Vol. 5, 299-312, (1994).
  • [12]De Gennaro, R., Cappelletti, P., Cerri, G., de Gennaro, M., Dondi, M., Guarini, G., Langella A., Naimo, D., Influence of zeolites on the sintering and technological properties of porcelain stoneware tiles, J. Eur. Ceram. Soc. Vol. 23, 22372245, (2003).
  • [13] Şan, O., Abalı S., Hoşten, Ç., Fabrication of Microporous Ceramics from Ceramic Powders of QuartzNatural Zeolite Mixtures, Ceram. Int. vol. 29, 927931, (2003).
  • [14] Al-Harbi, O. A., Khan, M. M, Özgür, C., Improving The Performance of Silica-based Crossflow Membranes by Surface Crystallization for Treatment of Oily Wastewater, J. Aust. Ceram. Soc. Vol. 53, 883-894, (2017).
  • [15]Şan, O., Özgür, C., Investigation of a High Stable-Cristobalite Ceramic Powder from CaO–Al2O3–SiO2 System, J. Eur. Ceram. Soc 29, 2945–2949, (2009).
  • [16] Şan, O., Özgür, C., Preparation of a Stabilized-Cristobalite Ceramic from Diatomite, J. All. Comp. 484, 920–923, (2009).

KLİNOPTİLOLİT TABANLI SERAMİK FİLTRELERİN ÜRETİMİNDE ALÜMİNYUM TANE BOYUTU ETKİLERİ

Yıl 2017, Sayı: 039, 43 - 48, 15.12.2017

Öz

Bu makalede,
klinoptilolit tabanlı seramik filtrelerin üretiminde tane boyutu etkileri
araştırılmıştır. Burada klinoptilolit tozları ağırlıkça % 10 Al tozu ile
karıştırılmış ve üç farklı klinoptilolit-metal toz karışımı örneği
hazırlanmıştır: (i) iri taneli numune (iri boyutlu Al tozları kuru olarak
bilyalı değirmende 5 dakika boyunca karıştırılmıştır), (ii) orta taneli numune (ince
boyutlu Al-tozu kullanılmıştır), ve (iii) ince taneli numune (orta taneli
numune planetary değirmende 1 saat öğütülmesi ile hazırlanmıştır). Karışımlar,
50 MPa basınç değerinde tek eksenli presle şekillendirilmiş ve daha sonra
oksijen atmosferde 1200°C'de 1 saat süre ile sinterlenmiştir. Mikroyapı ve faz
gelişimi SEM ve XRD analizleri ile araştırılmıştır. İri taneli numunede,
korundum, silisyum (Si) ve düşük oranda kristobalit fazında kristalleşme elde
edilmiştir. İnce ve orta taneli numunelerde ağırlıklı kristallenme
kristobalittir. Planetary değirmende öğütülmüş numunede gözeneklilik düşüş
gösterirken iri ve orta boyutlu tanelerin kullanıldığı numunelerde gözeneklilik
~%28 oranındadır, ancak gözenek boyut dağılımları farklılık göstermiş ve iri
boyutlu tanelerin kullanıldığı numunede 150
mm'ye kadar büyük gözenekler gözlenmiştir.
Orta boyutlu tanelerin kullanıldığı numunelerde nispeten küçük ve dar bir
aralıkta gözenek dağılımı elde edilmiştir (4-65
mm). 
Sonuçlar, orta boyutlu tanelerin kullanıldığı numunenin filtrasyon
sırasında yüksek seçiciliğe sahip seramik filtrenin üretimine imkan sağladığını
göstermektedir.

Kaynakça

  • [1]Wu, S., Gesing, A.J., Travitzky, N.A., Claussen, N., Fabrication and properties of Al-infiltrated RBAO-based composites, J. Eur. Ceram. Soc. 7, 277–281, (1991).
  • [2]Claussen N., T. S.,Wu Le, , Low-shrinkage reaction-bonded alumina, J. Eur. Ceram. Soc. 5 29–35, (1989).
  • [3]Ebadzadeh, T., Porous mullite-ZrO2 composites from reaction sintering of zircon aluminium, Ceram. Int. 31, 1091-1095, (2005).
  • [4]Esharghawi, A., Penot, C., Nardou, F., Contribution to porous mullite synthesis from clays by adding Al and Mg powders, J. Eur. Ceram. Soc 29, 31–38, (2009).
  • [5]Sahraoui, T., Belhouchet, H., Heraiz, M., Brihi, N., Guermat, A., The effects of mechanical activation on the sintering of mullite produced from kaolin and aluminum powder, Ceram. Int. 42, 12185–12193, (2016).
  • [6]Issaoui, M., Limousy, L., Lebeau, B., Bouaziz, J., Fourati, M., Design and characterization of flat membrane supports elaborated from kaolin and aluminum powders, C. R. Chimie 19, 496-504, (2016).
  • [7]Balmori-Ramirez, H., Rocha-Range1, E., Refugio-Garcia, E., C. Bradt, R., Dense Mullite from Attrition-Milled Kyanite and Aluminum Metal, J.Am. Ceram. Soc. 87 (1) 144-146, (2004).
  • [8]Sadika, C., El Amranib, I. E., Albizane, A., Effect of andalusite rich schist grain size and the addition of metallic aluminumpowder on the properties of silica–alumina refractory, J. Asian Ceram. Soc. 1, 351–355, (2013).
  • [9]Kingery, W.D., Bowen, H.K., Uhlmann, D.R., Introduction to Ceramics, Wiley, New York, (1976).
  • [10]Essl, F., Bruhn, J., Janssen, R., Claussen, N., Wet milling of Al-containing powder mixtures as precursor materials for reaction bonding of alumina (RBAO) and reaction sintering of alumina-aluminide alloys (3A), Mater. Chem. Phys. 61, 69-77 (1999).
  • [11]Andreola, F., Manfredini, T., Passaglia, E., Pellacani, G.C., Pozzi P., Romagnoli, M., Utilazition of an Italian Zeolitite in Ceramic Bodies, Mater. Eng. Vol. 5, 299-312, (1994).
  • [12]De Gennaro, R., Cappelletti, P., Cerri, G., de Gennaro, M., Dondi, M., Guarini, G., Langella A., Naimo, D., Influence of zeolites on the sintering and technological properties of porcelain stoneware tiles, J. Eur. Ceram. Soc. Vol. 23, 22372245, (2003).
  • [13] Şan, O., Abalı S., Hoşten, Ç., Fabrication of Microporous Ceramics from Ceramic Powders of QuartzNatural Zeolite Mixtures, Ceram. Int. vol. 29, 927931, (2003).
  • [14] Al-Harbi, O. A., Khan, M. M, Özgür, C., Improving The Performance of Silica-based Crossflow Membranes by Surface Crystallization for Treatment of Oily Wastewater, J. Aust. Ceram. Soc. Vol. 53, 883-894, (2017).
  • [15]Şan, O., Özgür, C., Investigation of a High Stable-Cristobalite Ceramic Powder from CaO–Al2O3–SiO2 System, J. Eur. Ceram. Soc 29, 2945–2949, (2009).
  • [16] Şan, O., Özgür, C., Preparation of a Stabilized-Cristobalite Ceramic from Diatomite, J. All. Comp. 484, 920–923, (2009).
Toplam 16 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Malzeme Üretim Teknolojileri
Bölüm Makaleler
Yazarlar

Osman Şan

Muhterem Koç Bu kişi benim

Yayımlanma Tarihi 15 Aralık 2017
Yayımlandığı Sayı Yıl 2017 Sayı: 039

Kaynak Göster

APA Şan, O., & Koç, M. (2017). EFFECT OF PARTICLE SIZE OF ALUMINUM ON THE DEVELOPMENT OF CLINOPTILOLITE BASED POROUS CERAMIC FILTERS. Journal of Science and Technology of Dumlupınar University(039), 43-48.