• Title/Summary/Keyword: heat cured resin

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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.

THE EFFECT OF OXYGEN INHIBITION ON INTERFACIAL BONDING BETWEEN COMPOSITE RESIN LAYERS (복합레진 적층계면에서 oxygen inhibition의 영향에 관한 연구)

  • Choi, Su-Mi;Park, Jae-Hong;Choi, Sung-Chul;Kim, Kwang-Chul;Choi, Young-Chul
    • Journal of the korean academy of Pediatric Dentistry
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    • v.37 no.3
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    • pp.298-307
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    • 2010
  • The purpose of this study was to assess the effect on oxygen inhibition layer(OIL) for the interfacial bonding between resin composite layers, including shear bond strength, fracture modes and degree of conversion. The first layer of specimen was filled with Z-250(shade A3) and was cured for 40s. The second layer of specimen was filled with same composite(shade A1) and was cured for 40s. The first layer of specimens for each group were prepared by methods as followings. Control(curing in atmospheric air), Group1(curing against Mylar strip), Group2(scrubbed with a acetone-soaked cotton), Group3(using Tescera light cup), Group4(using Tescera heat cup), Group5(stored in disti1led water for 30days at $37^{\circ}C$), Group6 (using bonding agent). The results were as follows: 1. There was no statistically significant different shear bond strength between control and group 1(p>0.05). 2. Group 2 showed significantly lower shear bond strength than control and group 1(p<0.05). 3. The observation of the fracture surface leads to the evidence that a major difference occurs in the case of control, group1 and group 3 samples which break mainly cohesively while the other groups break in majority adhesively. 4. The results of FTIR showed that the degree of conversion was the highest in group 2 and the lowest in control group(p<0.05). It can be concluded that an OIL is not necessary for bonding with composite resin. But if a reduced critical amount of the unreacted monomer is present, it was detrimental to bonding additional layers of composite. Further study, such as the quantitative analysis of the unreacted monomer are required.