1 |
K.G. Lee, C.J. Park, Y.T. Kim, S.B. Kim and J.H. Kim, "Rheological behavior of coal fly-ash and clay slip", J. of the korean Ceram. Soc. 35[2] (1998) 180.
|
2 |
F.F. Lange, B.V. Velamakanni, J.C. Chang and D.S. Pearson, "Colloidal powder processing for structural reliability: Role of interparticle potential on particle consolidation", Processing of the 11th International Symposium on Metallurgy and Materials Science, Ed. by J.J. Bentzen, etc., Denmark (1990).
|
3 |
K.G. Lee, H.N. Jeong and H.M. Jang, "Effect of colloid/ interface variables on slip properties and densification behavior of mullite", Ceramic Powder Science, Ceramic Transaction 12 (1990) 395.
|
4 |
W.J. Choi, "Characteristic of environmental and physical of domestic waste", J. Kor. Geo-Environ. Soc. 2[3] (2001) 77.
|
5 |
K.D. Kim, J.H. Kim, Y.T. Kim, S.G. Kang and K.G. Lee, "Production of lightweight aggregates using power plant reclaimed ash", J. Kor. Ceram. Sor. 47[6] (2010).
|
6 |
K.D. Kim, "A study on application and fabrication of functional ceramics for constructing materials using ecofriendly waste recycling process", Doctoral dissertation, Kyonggi University (2010).
|
7 |
K.G. Lee, H.J. Lee, D.W. Kim, Y.T. Kim, S.C. Hong and S.J. Lee, "Analysis of Coal Fly Ash", J. of Korean Association of Crystal Growth 3[2] (1993) 185.
|
8 |
K.D. Kim and S.G. Kang, "Manufacturing artificial lightweight aggregates using coal bottom ash and clay", J. Kor. Cryst. Tech. 17[6] (2007) 277.
|
9 |
F.F. Lange, "New Interparticle Potential Paradigm for Advanced Powder Processing", Ceramic Powder Sci., Ceramic Transaction 22 (1991) 185.
|