| Issue |
Korean Chemical Engineering Research,
Vol.51, No.5, 628-633, 2013
Vol.51, No.5, 628-633, 2013
카본블랙의 표면개질이 중합토너의 특성에 미치는 영향
Effects of Surface-modification of Carbon Black on the Characteristics of Polymerized Toner
토너 입자 내부의 카본블랙의 분산성이 우수한 스타이렌 기반 현탁중합토너를 제조하기 위하여 카본블랙의 표면을 개질하였다. 산화반응을 통해 카본블랙 표면에 도입된 히드록시기와 유기산(올레산, 팔미트산, 아크릴산)의 카르복시기 사이의 에스터화 반응을 통해 표면이 유기화 개질된 카본블랙을 제조하였다. 카본블랙의 표면개질을 확인하기 위하여 FTIR을 이용하였다. 바인더 수지 모노머 혼합물에 대한 카본블랙의 가시적인 분산성 실험을 진행하였으며 입도분석기를 이용해 분산된 카본블랙의 입자 크기를 측정하였다. 광학현미경 사진을 분석한 결과 표면이 올레산으로 개질된 카본블랙을 사용할 경우 토너 입자 내부의 카본블랙의 분산성이 크게 향상되었다. 올레산으로 개질된 카본블랙을 이용해 제조한 중합토너는 입경 및 입경분포도 토너로서 이상적이었다.
Carbon black was surface-modified to prepare styrene-based suspension polymerized toner with excellent carbon black dispersibility inside toner particles. Carbon black was oxidized first to introduce hydroxyl groups on the surfaces, then esterification between the hydroxyl groups and carboxyl groups of organic acids (oleic acid, palmitic acid, acrylic acid) was followed to obtain organically surface-modified carbon black. The surface-modification of carbon black was confirmed by FTIR. Apparent carbon black dispersibility in the monomer mixture of the binder resin was tested and the particle size of dispersed carbon black was measured by particle size analyzer. Optical micrographs showed that carbon black dispersibility inside toner particles was improved considerably when the carbon black surfacemodified with oleic acid was used. The polymerized toner prepared with the carbon black surface-modified with oleic acid showed ideal particle size and size distribution as a toner.
[References]
- Park MS, Hong SK, J. Korea Soc. Imaging Sci., 3(1), 40, 1997
- Han H, Lee J, Park DW, Shim SE, Macromol. Res., 18(5), 435, 2010
- Xing GM, Zhang J, Zhao YL, Tang J, Zhang B, Gao XF, Yuan H, Qu L, Cao WB, Chai ZF, Ibrahim K, Su R, J. Phys. Chem. B, 108(31), 11473, 2004
- Zhang N, Xie J, Varadan VK, Smart Mater. Struct., 11(6), 962, 2002
- Tsubokawa N, Satoh T, Murota M, Sato S, Shimizu H, Polym. Adv.Technol., 12(10), 596, 2001
- Takeuchi Y, Fujiki K, Tsubokawa N, Polym. Bull., 41(1), 85, 1998
- Li W, Xie ZM, Li ZM, J. Appl. Polym. Sci., 81(5), 1100, 2001
- Jang HS, Hong J, Lee J, Shim SE, Korean Chem. Eng. Res., 46(4), 669, 2008
- Lee JH, Lee SN, Park MS, J. Korean Printing Soc., 20, 65, 2002
- Iwata N, Tani K, Watada A, Micron: the International Research and Review Journal for Microscopy., 37(4), 290, 2006
- Hong J, Hong CK, Shim SE, Colloids Surf. A: Physicochem. Eng. Asp., 302, 225, 2007
- Jeon JW, Kim SS, J. Korea Soc.Dyers and Finishers., 15(6), 8, 2003
- Park M, Polym.(Korea), 30(6), 498, 2006
- Hasegawa J, Yanagida N, Tamura M, Colloids Surf. A: Physicochem. Eng. Asp., 153, 215, 1999
- Yang J, Wang TJ, He H, Wei F, Jin Y, Ind. Eng. Chem. Res., 42(22), 5568, 2003
- Sawatari N, Fukuda M, Taguchi Y, Tanaka M, J. Appl. Polym. Sci., 97(2), 682, 2005
- Stevens MP, “Polymer Chemistry: An Introduction,” Oxford Univ. Press, New York, 204, 1999
- Choi D, Park M, J. Korea Soc.Imaging Science., 6(1), 61, 2000
- Lee SY, Park LS, Polym.(Korea), 24(5), 579, 2000
- Olayo R, Garcia E, Garcia-Corichi B, Sanchez-Vazquez L, Alvarez J, J. Appl. Polym. Sci., 67(1), 71, 1998
- Dating T, Chinese J. Synth. Chem., 11(1), 41, 2003
- Wang P, Guo Z, Liu Y, Ion Exchange and Adsorption., 24(2), 131, 2008
- Chang BJ, Oh IS, Kim JI, Joo HJ, Polym.(Korea), 23(2), 204, 1999
- Park S, Kim DE, Byun J, Yu JG, Kim DS, Korean Chem. Eng. Res., 48(2), 212, 2010
- Yu JG, Kim DS, Korean Chem. Eng. Res., 50(5), 923, 2012
- Kim NS, Kim DS, J. Korean Oil Chemists' Soc., 22(2), 96, 2005
- Pang X, Cheng G, Lu S, React. Funct. Polym., 62(1), 69, 2005
참고문헌정보(참고문헌, 인용문헌)는 화학공학소재연구정보센터에 의해 제공되고 있습니다.