Synthesis and optical properties of forsterite ceramic pigments using mirror wastes as a flux

ผู้แต่ง

  • Niti YONGVANICH Department of Materials Science and Engineering, Faculty of Engineering and Industrial Technology, Silpakorn University, Nakornpathom, 73000 Thailand
  • Natchaya LITHIRA Department of Materials Science and Engineering, Faculty of Engineering and Industrial Technology, Silpakorn University, Nakornpathom, 73000 Thailand
  • Nitchakarn NUNIEAD Department of Materials Science and Engineering, Faculty of Engineering and Industrial Technology, Silpakorn University, Nakornpathom, 73000 Thailand
  • Wanchalerm CHAUYARSA Department of Materials Science and Engineering, Faculty of Engineering and Industrial Technology, Silpakorn University, Nakornpathom, 73000 Thailand

คำสำคัญ:

Forsterite, Co-dopin, pigment, flux, glaze, stability

บทคัดย่อ

Cobalt-doped forsterite ceramic pigments based on the formula (Mg2-2xCo2x)SiO4 (x = 0, 0.05, 0.1, 0.2) were synthesized using mirror wastes as a flux. Addition of this flux enhanced forsterite phase formation at lower temperature by as much as 200℃. The resulting pigment particles were in a micron range which is suitable for use in a ceramic glaze. The host structure (Mg2SiO4) could accommodate cobalt cations up to 20 at%. Investigation on the chemical distribution revealed that no chemical species from the flux reacted with pigment grains. Optical properties were examined by UV-vis spectroscopy and colorimetry. Technical performance of the obtained pigments was tested in an industrial low-fire glaze. Alteration in color of the matured glazes was clearly observed, suggesting some instability of the pigments. Using a dense pellet form embedded in a molten glaze, an interfacial layer was observed, indicating interaction between the pigment and corrosive glassy glaze occurred. Stability in all raw materials commonly used in medium-fire glazes was further studied in order to determine which compound might cause such instability. The results would allow a design of glaze’s recipe to possess the desired color of the finished products.

Downloads

Download data is not yet available.

เอกสารอ้างอิง

A. I. Glebycheva, N. N. Kazakova, L. A. Vizir, A. S. Bystrikov, and V.V. Gorbachev, “Ceramic pigments based on cobalt-containing forsterite,” Glass and Ceramics. vol. 40, pp. 105-106, 1983.

C. Gargori, S. Cerro, R. Galindo, A. Garcı´a, M. Llusar, and G. Monro´s, “Iron and chromium doped perovskite (CaMO3 M = Ti, Zr) ceramic pigments, effect of mineralizer,” Ceramics International. vol. 38, pp. 4453-4460, 2012.

N. Siragi, M. El Hadri, H. Ahamdane, and M. A. El Idrissi Raghini, “Cu- and Mn-doped forsterite: sol–gel synthesis, and optical and colorimetric investigation,” Bulletin of Materials Science. vol. 44:12, pp. 1-15, 2021.

F. Ghariani, R. Fezei, and A. H. Hamzaoui, “Synthesis, characterization, and application of sol gel derived Mg2SiO4 powder,” Journal of Sol-Gel Science and Technology. vol. 88, pp. 100-104, 2018.

H-S. Lee, and B-H. Lee, “Synthesis of Forsterite Pigment for Underglaze Colors,” Materials Science Forum. vol. 658, pp. 109-112, 2010.

K. L. Jeffrey Chin, S. Ramesha, W. J. Kelvin Chew, P. Ganesan, L. T. Bang, Y. C. Ching, A. Niakan, C. Y. Tan, J. Purbolaksono, and W. D. Teng, “Sintering and properties of magnesium orthosilicate ceramic,” Ceramics International. vol. 41, pp. 13614-13623, 2015.

L. M. Anovitz, A J. Rondinone, L. Sochalski-Kolbus, J. Rosenqvist, and M. C. Cheshire, “Nano-scale synthesis of the complex silicate minerals forsterite and enstatite,” Journal of Colloid Interface Science. vol. 495, pp. 94-101, 2017.

M. B. Sedel’nikova, V. M. Pogrebenkov, and N. V. Liseenko, “Effect of mineralizers on the synthesis of ceramic pigments from talc,” Glass and Ceramics. vol. 66, pp. 223-226, 2009.

M. El Hadri, H. Ahamdane, and M. A. El Idrissi Raghni, “Sol gel

synthesis of forsterite, M-doped forsterite (M = Ni, Co) solid solutions and their use as ceramic pigments,” Journal of the European Ceramic Society. vol. 35, pp. 765-777, 2015.

M. Kharaziha, and M. H. Fathi, “Synthesis and characterization of bioactive forsterite nanopowder,” Ceramics International. vol. 35, pp. 2449-2454, 2009.

N. Yongvanich, K. Supanichwatin, J. Penglan, and N. Triamnak, “Synthesis and Characterizations of (CoxMg(2−x))SiO4 Forsterite Ceramic Pigments from Mirror Waste,” Materials. vol. 11(7), pp. 1210-1220, 2018.

N. Yongvanich, N. Wangwanich,and N. Phomwana, “Sol-gel Synthesis and Optical Properties of Malayaite Ceramic Colour Pigments,” Sains Malaysiana. vol. 47, no. 3, pp. 581-587, 2018.

S. H. Tamin, S. B. R. S. Adnan, M. H. Jaafar, N.S. Mohamed, “Effects of sintering temperature on the structure and electrochemical performance of Mg2SiO4 cathode materials,” Ionics. vol. 24, pp. 2665-2671, 2018.

ดาวน์โหลด

เผยแพร่แล้ว

2021-12-16

วิธีการอ้างอิง

[1]
N. YONGVANICH, N. LITHIRA, N. NUNIEAD, และ W. CHAUYARSA, “Synthesis and optical properties of forsterite ceramic pigments using mirror wastes as a flux ”, J Met Mater Miner, ปี 31, ฉบับที่ 4, น. 108–115, ธ.ค. 2021.

ฉบับ

บท

Original Research Articles