• Title/Summary/Keyword: 폐 발포폴리스티렌

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Characteristic of Light Weight Mortar using Waste Expanded Polystyrene and Expanded Polystyrene Beads (폐 발포폴리스티렌과 발포폴리스티렌 비드를 활용한 경량 모르타르의 특성)

  • Kang, Suk-Pyo;Hwang, Byoung-Il
    • Journal of the Korea Institute of Building Construction
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    • v.17 no.5
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    • pp.393-401
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    • 2017
  • This study presents an evaluation of basic properties of light weight mortar with expanded polystyrene bead(EPB) and waste expanded polystyrene(WEP) by varying replacement rations. In order to evaluate the basic properties of the light weight mortar with EPB and WEP, unit weight, compressive strength, flexural strength, water absorption ratio, thermal conductivity and distribution of polystyrene (EPB and WEP) in hardened mortar were performed. As a result, unit volume, compressive strength, bending strength, water absorption and thermal conductivity of light weight mortar were increased, but area distribution of polystyrene decreased with increasing the replacement ratio of WEP.

Setting Behavior of Polystyrene Mortars with Elapsed Curing Time (폴리스티렌 모르타르의 양생재령에 따른 경화거동)

  • Choi Nak-Woon;Kim Han-Sang
    • Journal of the Korea Concrete Institute
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    • v.16 no.1 s.79
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    • pp.54-60
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    • 2004
  • This study deals with the setting behavior of polystyrene mortars using waste expanded polystyrene(EPS) solution-based binders. The binders for polystyrene mortars are made by mixing crosslinking agent with EPS solutions prepared by dissolving EPS in styrene. Polystyrene mortars are prepared with various EPS concentrations of EPS solutions and crosslinking agent contents, subjected to a dry curing, and tested for working life, peak exotherm temperature and 10h-length change. From the test results, He working lives of polystyrene mortars are shortened with raising EPS concentration of EPS solution and crosslinking agent content. Low-shrinkage or non-shrinkage polystyrene mortars could be obtained by adjusting EPS concentration of EPS solution and crosslinking agent content.

Mechanical and Conductivity Characteristic of Lightweight Insulation Mortar Using Wasted Foam Polystyrene (폐발포폴리스티렌을 활용한 경량단열모르타르의 열전도율 및 역학적 특성)

  • Kang, Hye Ju;Hwang, Byuong Il;Jin, Eun mi;Kang, Suk Pyo
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2017.05a
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    • pp.250-251
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    • 2017
  • In study, the lightweight insulation mortar is produced with more than 50,000tons of waste each year, but it is difficult to treat with the degradable composite material and the recycling ratio is still 50%. the lightweight insulation mortar is manufactured by using the ratio of expanded polystyrene and pulverized expanded polystyrene.

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A Study on Properties of Waste Wood-Plastic Composite Panels (폐목재-플라스틱을 이용한 복합패널의 특성 연구)

  • Mun, Kyoung-Ju;Choi, Nak-woon;Choi, San-Ho
    • Journal of the Korea Organic Resources Recycling Association
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    • v.12 no.4
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    • pp.85-94
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    • 2004
  • Waste wood-plastic composite panels are made on different hot press molding conditions, and tested for apparent density, water absorption, expansion in thickness and flexural strength. From the test results, regardless of molding temperature and molding time, the apparent density of the composite panels is increased with an increase in the molding pressure, while their water absorption is decreased with an increase in the molding pressure. The flexural strength of the composite panels is markedly increased with increasing molding pressure, molding temperature and molding time, and tends to become nearly constant at a molding temperature of $120^{\circ}C$ and a molding time of 15min.

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Strength Characteristics of Light-weight Insulating Mortar Using Wasted Foam Polystyrene heat Insulating Materials as Recycling Aggregate (폐발포폴리스티렌 단열재를 순환골재로 사용한 경량 단열 모르타르의 강도특성)

  • Kang, Hye Ju;Jin, Eun mi;Kang, Suk Pyo
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2016.05a
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    • pp.221-222
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    • 2016
  • The replacement ratio of waste EPS was varied, and its effect on compressive strength and absorption capacity was investigated. According to the experimental results, The 28th day compressive strengths for the W/C 50% specimens were 17.5~21.2MPa, which was relatively low compared to the 13.6~22.2MPa of the W/C 70%.

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Properties of Unsaturated Polyester Mortar Using Expanded Polystyrene as a Shrinkage-Reducing Additive (발포 폴리스티렌 수지를 수축저감제로 이용한 불포화 폴리에스테르 모르타르의 특성)

  • 조영국;최낙운;소양섭
    • Journal of the Korea Concrete Institute
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    • v.13 no.1
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    • pp.30-37
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    • 2001
  • Generally, polymer mortar made with unsaturated polyester(UP) resin has a high curing shrinkage. This is an inadequate as repair material and construction products that have been widely used for years recently. To overcome these problems, polymer researchers and engineers have used shrinkage-reducing additives, which are usually specific thermoplastic polymers. The objective of this study is to evaluate the effects of shrinkage-reducing additive on the curing shrinkage and strengths of UP mortar. UP mortars are prepared with expanded polystyrene(EPS) ratio in styrene monomer(SM), (EPS/PS, PS=EPS+SM), and the ratio of total polystyrene resin(PS) to UP resin, (PS/UP). And it is tested for viscosity of UP resin, slump-flow, working life, flexural and compressive strengths, and curing shrinkage tests. From the test results, viscosity of resin for UP mortar increases with increasing PS content. Curing shrinkage of UP mortar is considerably smaller than that of plain UP mortar, nevertheless, reduction in the strengths is not recognized according to adding PS resin. In this study, we can obtain the optimum mix proportions of UP mortar using PS resin which made of waste expanded polystyrene.

Basic Properties of Waste Wood-Plastic Composite Panels by Hot Press Molding Method (열압 성형법에 의한 폐목재-플라스틱 복합패널의 기초적 성질)

  • Choi, Nak-Woon;Mun, Kyoung-Ju;Choi, San-Ho
    • Journal of the Korea Organic Resources Recycling Association
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    • v.12 no.4
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    • pp.95-104
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    • 2004
  • A styrene solution of waste expanded polystyrene with a crosslinking agent and an initiator was used as a binder for waste wood-plastic composite panels. The waste wood-plastic composite panels are prepared with various binder contents and filler-binder ratios by using a hot press molding method. The apparent density of the composite panels is increased with increasing binder content and filler-binder ratio, while their water absorption and expansion in thickness are decreased with increasing binder content and filler-binder ratio. The maximum flexural strength and wet flexural strength of the composite panels are obtained at a binder content of 35% and a filler-binder ratio of 0.8. Decreases in the flexural strengths of the composite panels due to water immersion at 20 and $100^{\circ}C$ are hardly recognized at binder contents of 30% or more.

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A Study on Pyrolysis of Styrene Dimer Fraction (SDF) (스티렌 이량체 유분의 열분해 연구)

  • Pei, Hai-Song;Kang, Yong;Cho, Deug-Hee;Choi, Myong-Jae;Lee, Sang-Bong
    • Applied Chemistry for Engineering
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    • v.17 no.3
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    • pp.321-326
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    • 2006
  • Thermal degradation of styrene dimer fraction (SDF, main compound: 47 wt% of 1,3-diphenylpropane), 5~15% of total products produced during decomposition of waste expanded polystyrene (WEPS) was investigated. Reaction condition of $360^{\circ}C$, and 152 kPa to 202 kPa was an optimum for high pressure degradation. Under this operating condition, the yield of oil was 73.8% and the selectivities to Ben, Tol, EB, SM, and AMS were 0.4, 30.9, 15.0, 19.6, and 4.2%, respectively. Non-catalytic fixed bed continuous degradation was conducted at reaction temperatures of $510{\sim}610^{\circ}C$ and contact time ranges of 2~24 min, where the yield was increased by increasing of reaction temperature and contact time. A $Cr_2O_3$ catalyst showed the highest activity and SM yield among acid, base, and redox catalysts. The conversion of 74.6% and the yield of Ben, Tol, EB, SM, and AMS were 0.4, 21.6, 9.7, 17.9, and 3.5%, respectively at $560^{\circ}C$ and contact time of 24 min. It is thought that styrene is converted to EB and other secondary products throughout the formation of diradicals of styrene.