• Title/Summary/Keyword: acetoacetoxy group

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Application of Acrylic Resins Containing Acetoacetoxy Group and 80% Solid Contents to High-Solid Coatings (아세토아세톡시기 함유 80% 고형분인 아크릴수지의 하이솔리드 도료에의 적용)

  • Park, Hong-Soo;Hong, Seok-Young;Kim, Song-Hyoung;Yoo, Gyu-Yeol;Ahn, Sung-Hwan;Hahm, Hyun-Sik
    • Journal of the Korean Applied Science and Technology
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    • v.23 no.4
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    • pp.319-327
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    • 2006
  • In order to prepare high-solid coatings, first acrylic resins (HSAs) which contain 80% solid were synthesized, and then the prepared resins were cured with isocyanate at room temperature. In the synthesis of HSAs, viscosity, number average molecular weight $(M_n)$ and conversion were $1372{\sim}2700$ cps, $1520{\sim}1650$ and $83{\sim}87%$, respectively. Among the four kinds of initiators used, tert-amylperoxy-2-ethyl hexanoate was the most proper one in the synthesis of HSAs. With increasing $T_g$ values, viscosity increased rapidly and molecular weight increased slowly. As a result of the examination of coated films, it was found that $60^{\circ}$ specular gloss, impact resistance, heat resistance and cross-hatch adhesion were good, and pencil hardness, drying time and pot life were poor.

Application of Acrylic Resins Containing Acetoacetoxy Group and 90% Solid Contents to High-Solid Coatings (아세토아세톡시기 함유 90% 고형분인 아크릴수지의 하이솔리드 도료에의 적용)

  • Park, Hong-Soo;Kim, Bo-Bae;Kim, Ji-Hyun;Park, Eun-Su;Yoon, Hyun-Don;Lee, Young-Jun;Yeon, Je-Won;Ka, Eun-Ji;Lee, Ji-Soo
    • Journal of the Korean Applied Science and Technology
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    • v.25 no.3
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    • pp.322-331
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    • 2008
  • In order to synthesize high-solid coatings, acrylic resins (HSAs) containing 90% solid content were first synthesized, then the synthesized HSAs were cured with a curing agent, isocyanate, at room temperature to obtain high-solid coatings. In the HSAs synthesis, conversion was in a range of $82{\sim}87%$, and viscosities and number-averaged molecular weight ($M_n$) of the HSAs were in a range of $4380{\sim}8010$ cP and $1540{\sim}1660$, respectively. From the correlation between $T_g$ value, viscosity and $M_n$, it was found that, with increasing $T_g$ value, viscosity increases rapidly and molecular weight increases slowly. From the visco-elasity measured by the pendulum method, it was found that the curing time decreased with increasing $T_g$ values. From the tests of physical properties of the coatings' film, $60^{\circ}$ specular gloss, impact resistance and heat resistance were proved to be good and pencil hardness, drying time and pot-life were proved to be poor.

Physical Properties of High-Solid Coatings with Acrylic Resins Containing Acetoacetoxy Group and Allophanate-Trimer (Acetoacetoxy기 함유 아크릴수지와 Allophanate-Trimer에 의한 하이솔리드 도료의 도막물성)

  • Jo Hye-Jin;Shim Il-Woo;Park Hong-Soo;Kim Seung-Jin;Kim Seong-Kil
    • Polymer(Korea)
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    • v.30 no.3
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    • pp.230-237
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    • 2006
  • Copolymers(HSA-98-20, HSA-98-0, HSA-98+20) which we acrylic resin containing 80% solid content were synthesized by the reaction of monomers, including methyl methacrylate, n-butyl acrylate, and 2-hydroxyethyl acrylate with a functional monomer, acetoacetoxyethyl methacrylate (AAEM), which nay give improvements in cross-linking density and physical properties of films. The physical properties of prepared acrylic resins, containing AAEM, are as follows viscosities, $1420\sim5760cps$ ; number average molecular weight, $2080\sim2300g/mol$; polydispersity index, $2.07\sim2.19$ ; and conversions, $88\sim93%$. In the next step, high-solid coatings (HSA-98-20C, HSA-98-0C, HSA-98+20C) were prepared by the curing reaction between acrylic resins containing 80% solid content and isocyanate at room temperature. Various properties were examined on the film coated with the prepared high-solid coatings. The introduction of AAEM to the coatings enhanced the abrasion resistance and solvent resistance, which indicated the possible use of high- solid coatings for top-coating materials of automobile. Since the curing by viscoelastic measurement occurred in sequence of HSA-98+20C > HSA-98-0C > HSA-98-20C, it was concluded that the curing rates became faster with incresing $T_g$ values.

Physical Properties of High-Solid Coatings with Acrylic Resins Containing Acetoacetoxy Group and HDI-Trimer (Acetoacetoxy기 함유 아크릴수지와 HDI-Trimer에 의한 하이솔리드 도료의 도막물성)

  • You, Hyuk-Jae;Chung, Dong-Jin;Hahm, Hyun-Sik;Park, Hong-Soo;Kim, Seong-Kil
    • Journal of the Korean Applied Science and Technology
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    • v.20 no.3
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    • pp.237-242
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    • 2003
  • The high-solid coatings were prepared by blending the synthesized acrylic resin in the previous paper and hexamethylene diisocyanate-trimer and curing it at room temperature. The characterization of the films of the prepared coatings was performed. The impact resistance, $60^{\circ}C$ specular gloss, cross-hatch adhension, and heat resistance of the films proved to be good, and the pencil hardness and drying time proved to be slightly poor. Especially, there was a remarkable improvement in the heat resistance. This improvement may stem from the regular arrangement of ethyl groups introduced into the acrylic resin. From a viscoelastic measurement using a rigid-body pendulum, curing was accelerated with the $T_g$ value. With the increase in $T_g$, log damp value was lowered and dynamic viscoelasic $T_g$ of a cured film was increased.

Synthesis of Acrylic Resins for High-Solid Coatings Containing Acetoacetoxy Group (Acetoacetoxy기 함유 하이솔리드 도료용 아크릴 수지의 합성)

  • You, Hyuk-Jae;Chung, Dong-Jin;Jung, Choong-Ho;Hahm, Hyun-Sik;Park, Hong-Soo;Kim, Tae-Ok
    • Journal of the Korean Applied Science and Technology
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    • v.20 no.3
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    • pp.221-229
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    • 2003
  • A copolymer ${\sim}$550cps ; $M_n$, 2590${\sim}$2850 ; and conversion, 82${\sim}$89%, respectively. It was found from the plotting of $T_g$ versus viscosity and $T_g$ versus molecular weight that viscosity increased with $T_g$ while number averaged molecular weight decreased with increasing $T_g$.

Synthesis of Eco-Friendly High Solid Acrylic Resins and Curing Properties of Acrylic Urethane Resin Coatings (환경 친화형 하이솔리드 아크릴수지의 합성과 아크릴 우레탄 도료의 경화 특성)

  • Kim, Jin-Wook;Lee, Dong-Chan;Choi, Joong-So
    • Korean Chemical Engineering Research
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    • v.55 no.5
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    • pp.586-592
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    • 2017
  • In this study, acrylic resins with solids content of 75% were prepared by addition polymerization of n-butyl acrylate (BA), methyl methacrylate (MMA), 2-hydroxypropyl methacrylate (HPMA) and acetoacetoxyethyl methacrylate (AAEM) monomers. At this time, the glass transition temperature ($T_g$) of the acrylic resin was changed to 20, 30 and $40^{\circ}C$, and the hydroxyl value (OH value) was changed to 60, 90 and 120. As a result, the viscosity of acrylic resin increased with increasing $T_g$ and hydroxyl (OH) value. The synthesized acrylic resin was designed to have a high cross-link density to maintain high elasticity and high durability. The crosslinked acrylic resin was used to prepare an acrylic urethane clear coating by curing reaction with a block isocyanate (Desmodur BL-3175). The physical properties of the clear paints were analyzed by measuring viscosity, adhesion, pencil hardness and $60^{\circ}$ specular gloss. Acrylic urethane clear coatings were prepared as specimens and evaluated for various properties to be applied as top coatings for coil coating. The prepared coatings were excellent in adhesion, excellent in $60^{\circ}$ specular gloss and pencil hardness, and eco-friendly.