참고문헌
-
I.J. Kim and C. Zografou, "Thermal shock resistance of
$Al_{2}TiO_{5}$ ceramics prepared from electrofused powders", J. Kor. Ceram. Soc. 35[10] (1998) 1061. - F.A. Costa Oliveira and J.C. Fernandes, "Mechanical and thermal behavior of cordierite-zirconia composites", Ceramics International 28[1] (2002) 79. https://doi.org/10.1016/S0272-8842(01)00061-X
- S.J. Lee and K.S. Cho, "Characteristics of cordierite ceramics filled with alumina platelets", J. Kor. Cryst and Cryst. Tech. 12[6] (2002) 292.
-
H.S. Ragab, R.A. Abd Ellah, A. Shehap, M.S. Abo Ellil, W.H. Osman and F.G. Abd El-Kader., "Study of thermal currents in powder
${\beta}$ -spodumene ceramics doped with CuO, FeO and$TiO_{2}$ ", J. Phy-Che, Solids (2002) 1839. - S.M. Kang, J.H. Shin, J.W. Han, J.K. Choi, B.S. Jeon and K.K. Orr, "Spodumene single crystal growth by FZ method", J. Kor. Cryst and Cryst. Tech. 3[2] (1993) 162.
-
J.Y. Jeong, H.M. Lee and H.L. Lee, "Preparation of
$Al_{2}O_{3}-TiO_{2}$ composite powder from Alkoxide (1): 1. Preparetion of$Al_{2}TiO_{5}$ by the sol-gel method and the effects of additives", J. Kor. Ceram. Soc. 33[10] (1996) 1138. -
W. Woignier and P. Lespade, "
$Al_{2}TiO_{5}-TiO_{2}$ and$Al_{2}TiO_{5}$ ceramic materials by the sol-gel process", J. Am. Cryst. Soc. 100 (1988) 325. -
I.J. Kim and G. Cao, "Low thermal expansion behavior and thermal durability of
$ZrTiO_{4}-Al_{2}TiO_{5}-Fe2O_{3}$ ceramics between 750 and$1400{^{\circ}C}$ ", J. Euro. Ceram. Soc. 22[14-15] (2002) 2627. https://doi.org/10.1016/S0955-2219(02)00126-7 -
L. Giordano, M. Viviani, C. Bottino, M.T. Buscaglia, V. Buscagliaand and P. Nanni, "Microstructure and thermal expansion of
$Al_{2}TiO_{5}-MgTi_{2}O_{5}$ solid solutions obtained by reaction sintering", J. Euro. Ceram. Soc. 22[11] (2002) 1811. https://doi.org/10.1016/S0955-2219(01)00503-9 -
J.S. Park, S.U. Lee and H.D. Nam, "Effects of MgO addition on mechanical and thermal properties of
$Al_{2}O_{3}-TiO_{2}$ composites", Materials Research 1[1] (2000) 64. - C.G. Shi and I.M. Low, "Effect of spodumene additions on the sintering and densification of aluminum titanate", Materials Research Bulletin 33[6] (1998) 817. https://doi.org/10.1016/S0025-5408(98)00061-0
- C.G. Shi and I.M. Low, "Use of spodumene for liquidphase-sintering of aluminium titanate", Materials Letters 36[1-4] (1998) 118. https://doi.org/10.1016/S0167-577X(98)00013-5
- A. Bayuseno, B.A. Latella and B.H. O'Connor, "Resistance of alumina-spodumene ceramics to thermal shock", J. Am. Ceram. Soc. 82 (1999) 819. https://doi.org/10.1111/j.1151-2916.1999.tb01841.x
- L.M. Low, E. Mathews, T. Garrod, D. Zhou, N. Phillips and X.M. Pillai, "Processing of spodumene-modified mullite ceramics", J. Materials Science 32[14] (1997) 3807. https://doi.org/10.1023/A:1018679808095
- Y.J. Kwon, Y.T. Kim, K.G. Lee and Y.J. Kim, "Lightweight aggregate bloating mechanism of clay/incinerated ash/additive system", J. Kor. Ceram. Soc. 38[9] (2001) 811.
-
J.H. Park, "Mechinable oxide ceramics made by reactive sintering of
$Al_{2}O_{3}$ and$TiO_{2}$ ", degree of masters, dong-eui university (2010) p.7. -
H.R. Rezaie, R. Naghizado, N. Farrokhnia, S. Arabi and M. Sobhani, "The Effect of
$Fe_{2}O_{3}$ addition on tialite formation", Ceramics International 35[2] (2009) 679. https://doi.org/10.1016/j.ceramint.2008.02.009 -
T. Korim, "Effect of
$Mg^{2+}$ and$Fe^{3+}$ -ions on formation mechanism of aluminium titanate", Ceramics International 35[4] (2009) 1674. - Fidel H. Perera, Antonia Pajares and Juan J. Melendez, "Strength of aluminium titianate/mullite composites containing thermal stabilizer", J. Euro. Ceram. Soc. 31[9] (2011) 1697.