• Title/Summary/Keyword: 폐유리 분말

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Experimental Study on the Mechanical Properties of Glass Concrete with Powdered Waste Glasses (폐유리 분말을 혼입한 유리 콘크리트의 역학적 특성에 관한 실험적 연구)

  • 배수호;정영수
    • Journal of the Korea Concrete Institute
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    • v.13 no.1
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    • pp.54-61
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    • 2001
  • As a part of the movement of natural resources conservation, there have been doing many recycling research works for obsolete aged tire, wasted plastic materials, etc. The purpose of this experimental study is to develop glass concrete by recycling wasted glasses as a cementitious constituent in concrete. First of all, the optimum replacement ratio of powdered waste glasses(PWG) can be determined through pilot compressive strength test on normal and high strength concrete cylinders, which have been made in various mix proportions by changing the replacement ratio of PWG. Then, further tests have been done to figure out mechanical properties of most desirable glass concrete with optimum replacement ratio of PWG, such as static modulus of elasticity, compressive and tensile strengths, flexural strength. On the other hand, the alkali-silica reactions by the mortar-bar method(KS F 2546) have been experimentally doing in various grain sizes of PWG, since the alkali in the cement has a tendency to react with the silica in the PWG. In can be confirmed from the test that glass concrete can have better workability than concrete with silica fume, and they are alike in compressive strength. It is concluded that wasted glasses can be used as pratical additives for economic and environmentally friendly concrete.

Expansion Properties of Mortar Using Waste Glass and Industrial By-Products (폐유리와 산업부산물을 사용한 모르터의 팽창특성)

  • 박승범;이봉춘
    • Journal of the Korea Concrete Institute
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    • v.14 no.3
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    • pp.440-448
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    • 2002
  • Waste glass has been increased with the development of industry. The utilization of waste glass for concrete can cause the concrete to be cracked and to be weakened due to an expansion by alkali-silica reaction(ASR). In this study, ASR expansion and properties of strength were analyzed in terms of waste glass color(amber, emerald-green), industrial by-products(ground granulated blast-furnace slag, fly ash), and the content of industrial by-products for reducing ASR expansion caused by the waste glass. The possibility of using glass ground as pozzolanic properties was also analyzed. From the result of this study, the pessimum size of waste glass was 2.5∼1.2 mm regardless of waste glass color. And the smaller than 2.5∼1.2 mm waste glass is, the more decreasing expansion of ASR is. Also, the combination of waste glass with industrial by-products have an effect on reducing the expansion and strength loss caused by ASR between the alkali in the cement paste and the silica in the waste glass, and the glass ground of less than 0.075 mm is applicable as a pozzolanic material.

Application of Powdered Waste Glasses and Calcium Carbonate for Improving the Properties of Artificial Lightweight Aggregate Made of Recycled Basalt Powder Sludge (현무암 석분 슬러지를 재활용한 인공경량골재의 물성개선을 위한 폐유리분말과 탄산칼슘의 활용)

  • Park, Soo-Je;Lee, Sung-Eun;Choi, Heebok
    • Journal of the Korea Institute of Building Construction
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    • v.14 no.3
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    • pp.230-236
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    • 2014
  • This study was carried out to investigate the manufacturability of artificial lightweight aggregate as a way to recycle basalt powder sludge, which is a waste produced during the manufacturing process of basalt in Jeju. Powdered waste glasses and calcium carbonate are used to improve the characteristics of manufactured artificial lightweight aggregate. Especially, considering the complex factors of basalt powder sludge, powdered waste glasses, and sintering method, the amount of calcium carbonate is appropriate at the 9 wt.% in order to improve the intumescent of lightweight aggregate. Also, the amount of powdered waste glasses is effective with using less than 50 wt.% and applying the direct sintering method at the same time on decreasing the absorption of lightweight aggregate. Furthermore, in order to manufacture artificial lightweight aggregate of high quality with a low specific gravity and low water absorption, it is considered to be more effective to apply the direct sintering method after the surface of artificial lightweight aggregate is covered with powdered waste glasses.

Manufacture and Applications of Cellular Glass for Recycling Waste Glass (폐유리 재활용을 위한 발포유리의 제조 및 활용 기술)

  • Jeon, Bae-Ho;Kim, Jung-Gon
    • Proceedings of the Korean Society of Disaster Information Conference
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    • 2017.11a
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    • pp.241-242
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    • 2017
  • 본 논문에서는 폐유리를 재활용하는 발포유리에 대한 기술 및 활용방법에 대한 고찰을 통해 국내에서 적용 가능한 폐유리 재활용기술에 대하여 검토하였다. 폐유리를 재활용한 발포유리는 폐유리를 분쇄한 유리 미분에 규산나트륨, 탄산칼슘, 그라파이트 등의 발포제를 첨가하여 형틀에 넣고 가열을 하면, 유리분말은 소결(sinter)상태가 되는 약 $800^{\circ}C$ 정도가 되면 녹기 시작하고, 발포제는 분해되어 $O_2$와의 반응에서 발생하는 $CO_2$ 가스에 의한 기포가 발생하여 발포유리가 형성되는 제조 방식이다. 이러한 발포유리 방식으로 제작된 판재 및 배관 형태의 불연재료는 건설 및 LGN선박용으로 널리 활용되고 있고, 인공경량 골재의 형태는 건설용 채움재 및 빗물 저류용, 정화용으로 활용되고 있다. 이러한 활용 방식은 국내에서도 충분히 적용 가능한 방식이며, 국내에서의 적용을 통해 폐기물 및 환경부하 저감 효과를 높일 수 있다.

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High Temperature Properties in Finishing Mortars of Exterior Insulation Finishing System Using Fly Ash and Waste Glass Powder (플라이애시와 폐유리분말을 사용한 외단열용 마감모르타르의 고온 특성)

  • Song, Hun;Shin, Hyeon Uk
    • Resources Recycling
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    • v.28 no.6
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    • pp.64-72
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    • 2019
  • Fly ash has different chemical composition depending on the type and quality of flaming coal. Fly ash is classified according to carbon content and particle size. Waste glass powder is manufactured by crushing glass. Exterior Insulation Finish System (EIFS) is generally applied by using poly-styrene foam which is economical and has excellent thermal insulation performance. However, poly-styrene foam has excellent insulation performance, but it is vulnerable to fire, which is becoming a serious problem. In this study, using a fly ash and waste glass powder to produce a finishing mortar at high temperatures. Also, High temperature strength and flame retardant properties were tested according to the cover thickness. From the test result, finishing mortar prepared using fly ash and waste glass powder is due to the improved heat resistance by alkali-activated bonding. However, since the strength decreases at high temperatures, it is necessary to select an appropriate mixing proportion.

Physical Properties of Light Weight Foamed Glass Using Waste Glass Powder and Fly Ash (폐유리분말과 플라이애시를 사용한 경량 발포소재의 물리적 특성)

  • Song, Hun;Shin, Hyeon-Uk
    • Journal of the Korean Recycled Construction Resources Institute
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    • v.3 no.4
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    • pp.328-334
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    • 2015
  • Building insulation materials use for the purpose of energy saving. Insulation materials can be classified inorganic and organic insulation materials. Inorganic insulation is used for fire resistive performance parts and organic insulation is used for thermal performance parts. Meanwhile, organic insulation is due to toxic gas emission in fire. Inorganic insulation is too heavy and low thermal performance than organic materials. This study is focused on evaluation of the physical properties of inorganic foam material using industrial by-products such as waste glass powder and fly ash. From the test result, inorganic foam materials for the applicability of fire-resistance and insulation light-weight materials.

Characterization of artificial aggregates fabricated from coal bottom ash containing much unburned carbon (미연탄소가 다량 함유된 석탄바닥재로 제조된 인공골재의 물성분석)

  • Kang, Min-A;Kang, Seung-Gu
    • Journal of the Korean Crystal Growth and Crystal Technology
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    • v.21 no.1
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    • pp.47-53
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    • 2011
  • The artificial aggregates (AAs) were manufactured from the parent batch powders consisting of bottom ash containing excess unburned carbon and dredged soil, 7 : 3 weight ratio by direct sintering method and those physical properties were evaluated. Especially, the effects of waste glass or frit (NWG) which was made by addition of 5 wt% $Na_2O$ to the waste glass upon the bloating phenomenon of AAs were analyzed. The AAs manufactured from the parent batch powders showed a lower specific gravity than that of specimens containing waste glass or NWG due to excess u$Na_2O$nburned carbon which usually obstructs a sintering process. But, the waste glass added on parent batch powders promoted the sintering and densification thus increased the specific gravity of AAs. Also the specific gravity of AAs added with 5 wt% NWG, was lowered compared to that of AAs added with as-received waste glass. This is because of bloating of shell which captures gases owing to the lowered viscosity of liquid formed at the specimen surface caused by $Na_2O$ addition. In conclusion, the AAs sintered at above $1100^{\circ}C$ in this study showed characters of lightweight aggregate of specific gravity 1.15~1.34 and water absorption 11~19 %, and the bloating phenomenon of AAs was occurred at the shell rather black core part.

Properties of PHC Piles Using TFT-LCD Waste Glass (TFT-LCD 폐유리 사용 고강도 콘크리트 파일의 특성)

  • Lee, Seung-Heun;Lee, Seung-Tae;Min, Kyung-San;Jeon, Sung-Hwan
    • Proceedings of the Korea Concrete Institute Conference
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    • 2010.05a
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    • pp.319-320
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    • 2010
  • This Study aimed to investigate fundamental properties of PHC pile using waste TFT-LCD glass powder. Through the present study, waste TFT-LCD glass powder may be taken into consideration for the application of mineral admixture for PHC pile.

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Manufacturing of Extinguishing Powder of Expanded Glass from Recycling Automotive Glass Powder (자동차 폐유리 분말을 이용한 팽창유리 소화약제의 제조)

  • Duk-Woo, Jeon;Jung-Ho, Park;Yong-Kwon, Lee
    • Journal of the Korean Recycled Construction Resources Institute
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    • v.10 no.4
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    • pp.547-552
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    • 2022
  • In this study, we secured a technology for manufacturing expanded glass of uniform quality by using general tempered glass, that is, window glass, among automotive glass that is scrapped, and verified whether the manufactured expanded glass can be used for lithium battery fire suppression. The process of manufacturing expanded glass using waste glass is generally divided into Crushing → Milling → Granulation → Expansion → Cooling. With several trials a nd errors. It is obtained a yield of 0.5 ø mm to 2 ø mm spherical particles of 80 % or more. By comparing the surface analysis and physical properties, a more suitable sample was selected as a fire extinguishing agent for lithium batteries, and it was confirmed that the result of the adaptability test for lithium battery fire was satisfactory.

Physical properties of Inorganic Foam Materials Using by-product Cullet (폐유리분말의 종류에 따른 무기발포체의 물리적 특성)

  • Shin, Hyeon-Uk;Kim, Ji-Hyeon;Song, Hun;Lee, Jong-Kyu
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2015.11a
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    • pp.5-6
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    • 2015
  • This study is to development of inorganic insulation material using by-product materials. The organic material is due to toxic gas emission, when a fire occurs. And it has lower water resistance. The inorganic material is heavy and worse thermal performance than organic materials. In this study, cullet and fly ash were used as basic materials in order to secure a recycling technology of by-products which was mostly discarded and reclimed, and measure of physical properties of Inorganic foam material.

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