고분자 분자구조 제어를 통한 전기 유변학적 특성과 블랜드 친화성 향상에 관한 연구

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dc.contributor.advisor이석현, 서문호-
dc.contributor.author우동진-
dc.date.accessioned2018-11-08T07:40:06Z-
dc.date.available2018-11-08T07:40:06Z-
dc.date.issued2006-08-
dc.identifier.other1594-
dc.identifier.urihttps://dspace.ajou.ac.kr/handle/2018.oak/6786-
dc.description학위논문(박사)--아주대학교 일반대학원 :분자과학기술학과,2006. 8-
dc.description.tableofcontentsContents Abstract∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙?@ List of Figures∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙?E List of Schemes and Table∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙?I?@?@ Chapter1. Introduction∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙1 1.1 Introduction of Nanotechnology∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙1 1.2 Electrorheological fluids∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙4 1.3 Polymer blends∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙15 1.4 Synthesis∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙21 Chapter2. Electrorheological behavior of suspensions of a substituted polyaniline with long alkyl pendants∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙30 2.1 Introduction∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙31 2.2 Experimental∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙32 2.2.1 Materials and Instruments∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙32 2.2.2 Preparation of 2-acetamidophenol∙∙∙∙∙∙∙∙32 2.2.3 Preparation of 2-acetamidophenoxydode-cane∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙33 2.2.4 Preparation of 2-aminophenoxydodecane ∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙33 2.2.5 Preparation of PDOA∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙34 2.2.6 Preparation of ER fluids∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙34 2.3 Results and Discussion∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙35 2.3.1 Synthesis and characterization∙∙∙∙∙∙∙∙∙∙∙∙∙∙35 2.3.2 Rheological Properties∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙38 2.4 Conclusions∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙44 Chapter 3. Styrene/4-Hydroxystyrene random, block and gradient copolymers modified with an organic dye: Synthesis by controlled radical polymerization and characterization of Electrorheological properties∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙48 3.1 Introduction∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙49 3.2 Experimental∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙51 3.2.1 Materials∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙51 3.2.2 Synthesis∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙51 3.2.3 Analysis of the copolymers∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙53 3.2.4 Electrorheological analysis∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙54 3.3 Results and Discussion∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙56 3.4 Conclusions∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙64 Chapter 4. Polymer Blend Compatibilization by Gradient Copolymer Addition during Melt Processing: The Effect of Molecular Weight∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙70 4.1 Introduction∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙71 4.2. Experimental∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙73 4.3. Results and Discussion∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙76 4.4. Conclusion∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙92 Chapter 5. Conclusions∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙ 99 List of publications∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙∙101-
dc.language.isoeng-
dc.publisherThe Graduate School, Ajou University-
dc.rights아주대학교 논문은 저작권에 의해 보호받습니다.-
dc.title고분자 분자구조 제어를 통한 전기 유변학적 특성과 블랜드 친화성 향상에 관한 연구-
dc.title.alternativeDongJin Woo-
dc.typeThesis-
dc.contributor.affiliation아주대학교 일반대학원-
dc.contributor.alternativeNameDongJin Woo-
dc.contributor.department일반대학원 분자과학기술학과-
dc.date.awarded2006. 8-
dc.description.degreeMaster-
dc.identifier.localId565546-
dc.identifier.urlhttp://dcoll.ajou.ac.kr:9080/dcollection/jsp/common/DcLoOrgPer.jsp?sItemId=000000001594-
dc.description.alternativeAbstractThe work presented in my thesis has been concentrated on synthesis of novel nano structure particles and its application. First, I have attempted to use new substituted PANI particles in ER suspensions. It is well known that ring substituents on the PANI backbone leads to a decrease in the conductivity. Thus the substituted PANI particles as synthesized may be used without further treatment of dedoping. Poly(2-Dodecyloxyaniline) (PDOA) was synthesized and used as particles for ER fluids. Synthesized polymer was soluble in organic solvent and showed good ER properties. The rheological properties of these ER fluids were measured by rotational rheometer equipped with a high- voltage generator. Secondly, I synthesized styrene/4-hydroxystyrene block and gradient copolymers containing the organic dye Disperse Red 1 (S/HSDR) by nitroxide-mediated controlled radical polymerization, and a random copolymer was made by conventional free radical polymerization. Three different types of S/HSDR microspheres were used for a study of electrorheological (ER) behaviors, and each ER fluid system exhibited an enhancement of shear viscosity under application of an electric field, relative to the zero-field viscosity. The ER characterization as a function of controlled molecular structure in suspension showed different ER properties. In particular, suspension of S/HSDR gradient copolymer showed ER properties more enhanced than those of random or block copolymers with similar MW and copolymer composition. Last, I demonstrate for the first time that compatibilization of an immiscible blend can be achieved via the addition of gradient copolymer during melt processing. By comparing several blend systems in terms of the evolution of the number-average dispersed phase diameter, Dn, of melt mixed samples after static annealing, I show that coarsening can be eliminated or suppressed upon melt mixing by addition of gradient copolymer to the blend.-
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Graduate School of Ajou University > Department of Molecular Science and Technology > 3. Theses(Master)
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