References
- Y. Ryu and Y. Kim, "A study on the surface modification of artificial lightweight aggregates by using bottom ash from coal power plant", Journal of the Korean Crystal Growth and Crystal Technology 19 (2009) 208.
- M. Song, J.B. Jang, B.S. Cho, J.H. Kim, Y.R. Kim and M.H. Kim, "An experimental study on properties of mortar using bottom ash produced in power plant", J. Architectural Institute of Korea 23 (2003) 202.
- K.D. Kim and S.G. Kang, "Manufacturing artificial lightweight aggregates using coal bottom ash and clay", Journal of the Korean Crystal Growth and Crystal Technology 17 (2007) 277.
- U.S. Patent 5,278,111 (1994).
- R.R. Menezes, H.S. Ferreira, G.A. Neves and H.C. Ferreira, "Use of granite sawing wastes in the production of ceramic bricks and tiles", J. Euro. Ceram. Soc. 25 (2005) 1149. https://doi.org/10.1016/j.jeurceramsoc.2004.04.020
- M. Dondi, G. Guarini and I. Venturi, "Orimulsion fly ash in clay bricks-part 2: techmological behaviour of clay/ash mixtures", J. Euro. Ceram. Soc. 22 (2002) 1737. https://doi.org/10.1016/S0955-2219(01)00494-0
- K.W. Kim, Y.S. Doh and X.F. Li, "Evaluation for characteristics of coal-mine waste concrete", J. Kor. Soc. Agricul. Eng. 43 (2001) 132.
- S.M. Han, D.Y. Shin and S.K. Kang, "Preparation for porous ceramics using low grade clay", J. Kor. Cer. Soc. 35(6) (1998) 575.
- KR Patent 101998033799 (1998).
- T.Y. Lim, S.S. Jeong, J.H. Hwang and J.H. Kim, "A study on the fabrication of soda-lime glass by using refused coal ore and its properties", J. Korean Crystal Growth and Crystal Technology 20(1) (2010) 43. https://doi.org/10.6111/JKCGCT.2010.20.1.043
- T.Y. Lim, S.S. Jeong, J.H. Hwang, J.H. Kim and J.K. Kim, "Optical properties of soda-lime color glass fabricated by using refused coal ore", Kor. J. Mater. Res. 20(10) (2010) 524. https://doi.org/10.3740/MRSK.2010.20.10.524
- T.Y. Lim, H.W. Ku, J. Hwang, J.H. Kim and J.K. Kim, "A study on the fabrication of foamed glass by using refused coal ore and its physical properties", J. Korean Crystal Growth and Crystal Technology 21(6) (2011) 266. https://doi.org/10.6111/JKCGCT.2011.21.6.266
- J.S. Lee and T.Y. Lim, "Fabrication and characterization of boron free E-glass fiber compositions", Journal of the Korean Crystal Growth and Crystal Technology 23 (2013) 44. https://doi.org/10.6111/JKCGCT.2013.23.1.044
- H.J. Jung, "Fusion ceramic materials (Text book for High School)", Ministery of Education Science and Technology (2003) 60.
- B.H. Kim, "Glass technology", Chungmoon Gak (2009) 25.
- F.T. Wallenberger, "Glass fibers", ASM Handbook 21 (2001) 28.
- B.H. Kim, "Glass technology", Chungmoon Gak (2009) 430.
- F.T. Wallenberger, "Advanced inorganic fibers", Kluwer Academic Publishers (1999).
- H.J. Jung, "Fusion ceramic materials (Text book for High School)", Ministery of Education Science and Technology (2003) 193.
- T. Suzuki, "Data book of glass composition", The Glass Manufacturer's association in Japan (1991) 134.
- B.H. Kim, "Glass technology", Chungmoon Gak (2009) 380.
- F.T. Wallenberger, "Advanced inorganic fibers", Kluwer Academic Publishers (1999) 147.
- B.H. Kim, "Glass technology", Chungmoon Gak (2009) 393.
- F.T. Wallenberger, "Glass fibers", ASM Handbook 21 (2001) 28.
- J.R. Lee, J.S. Oh, S.J. Park and Y.K. Kim, "Effect of heat treatment condition on tensile strength of glass fibers", Proceeding of Autumn Annual Conference of KSCM (2002) 257.
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