참고문헌
- H. Fei and X. Wei, "The Peptization and Effect Assessment of Water Treatment Surfactant on Ceramic Raw Material," Shandong Ceram., 22 [6] 594-98 (2012).
- S.-F. Guo, Y.-X. Fang, Y.-H. Deng, and X.-Q. Qiu, "Study on the Performance and Compatibility of the Lignin-Based Dispersant for Ceramic Slurry," Fine Chem., 28 [6] 594-98 (2011).
- S.-H. Zhang, M. Zhang, and J.-T. Jia, "Progress of Ceramic Water Reducing Agent," Bull. Chin. Ceram. Soc., 32 [4] 677-82 (2013).
- M. S. Eygi and G. Atesok, "An Investigation on Utilization of Polyelectrolytes as Dispersant for Kaolin Slurry and its Slip Casting Properties," Ceram. Int., 34 [8] 1903-8 (2008). https://doi.org/10.1016/j.ceramint.2007.07.012
- A. A. Zaman, R. Tsuchiya, and B. M. Moudgil, "Adsorption of a Low-Molecular Weight Polyacrylic Acid on Silica, Alumina, and Kaolin," J. Collid Interface Sci., 256 [1] 73-8 (2011).
- L. Behal and D. Schelker, "Effects of Polyacrylate and Sodium silicate Dispersants on Plaster Mold Characteristics," pp. 23-29 in proceedings of the Ceramics Engineering Science, United states, 1996.
- L. Xiaorui and W. Haihua, "Preparation and Relationship between the Structure and Properties of Novel Ceramic Dispersant," China Ceram., 12 [02] 542-48 (2005).
- C. Bao-Fan, "Synthesis and Properties of an AMPS-Modified Polyacrylic Acid Superplasticizer," J. Wuhan Univ. Technol. (Materials Science Edition), 03 122-28 (2013).
- B.-A. Chen, "Preparation and Properties of Polycarboxylate Dispersants of Linear MA-AA-MAS for Ceramics," Bull. Chin. Ceram. Soc., 2 [09] 2223-31 (2014).
- B.-Y. Jiang, H.-G. Ji, B. Liao, H.-L. Liu, and P. Hao, "Preaparation and Performance of Sodium Polyacrylate for Ceramic Superplasticizer," Fine Chem., 28 [10] 1004-9 (2011).
- J. H. Yang, X. Q. He, and H. Wang, "Synthesis of Low Molecular Weight Poly-Acrylic Acid Sodium and Application in Ceramics," Foshan Ceram., 2005 [04] 112-18 (2005).
- L. Wang, F. Wang, B. Guo, Q. Ke, K. Zhao, and X. Yuan, "Research on Preparation, Structure and Properties of Copolymer Maleic Anhydride Superplasticizer," Mater. Rev., 22 [10] 33-6 (2010).
- D. J. Gale and S. C. Spartanburge, US Patent 3,635,915 (January 18, 1972).
- K. Cui, X.-L. Zou, and Y.-J. Lan, "Study on Synthesis of Maleic Anhydride-Acrylic Acid Copolymer," Fine Chem., 14 [02] 82-8 (2010).
- Y.-S. Ye, H.-L. Huang, and K.-C. Hsu, "A Water-Soluble Acrylate/Sulfonate Copolymer. I. Its Synthesis and Dispersing Ability on Cement," J. Appl. Polym. Sci., 100 [3] 2490-96 (2006). https://doi.org/10.1002/app.23606
- Q.-Q. Huang, B. Liao, B.-Y. Jiang, and B. Wang, "Preparation and Charcterization of AA-AMPS Copolymer Dispersant for Ceramic Powder," Fine Chem., 2013 [03] 339-43 (2013).
- B. Wang, W.-Q. Liu, H. Pang, Q.-F. Zeng, and R. Zhang, "Synthesis of High Performance Ceramics Superlasticizers and its Application," Guangzhou Chem., 2013 [03] 88-94 (2013).
- R. Wei, J. Zhou, and G. Xiao, "Synthesis and Performance of Polycarboxylate Based Superplasticizer by Free Radical Copolymerization in Aqueous Solution," J. Southeast Univ. 20 [6] 222-40 (2009).
- L. Lei, Z. Guang-hua, and F. Xiao-long, "Preparation and performance of ultra Low Molecular weight AA/SAS Copolymer dispersant for Cramic Powder," Fine Chem., 28 [04] 82-94 (2014).
- L. Dammann and K. Crestwood, US Patent 4,451,628 (May 29, 1984).
- Y. Zhang, L. Meng, and L. Meng, "Research on Synthesis and Application of Linear Polycarboxylate Superplasticizer," Chinese Ceram., 46 [4] 65-8 (2010).
- D. Santos, J. Manna, and M. Kramer, CN101550291B. (March 30, 2009).
- E. Sakai, K. Yamada, and A. Ohta, "Molecular Structure and dispersion-adsorption mechanism of comb type superpalsticizers used in Japan," J. Adv. Concr. Technol., 1 [1] 16-25 (2003). https://doi.org/10.3151/jact.1.16
- C. Li, N. Feng, D. Wang, and Y. Hou, "Preparation and Characterization of Comb-like Polycarboxylic Water Reducer and it's Function Mechanism," J. Chinese Soc., 33 [1] 87-92 (2005).