• 펄프종이기술
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• 제44권4호
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• pp.8-15
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• 2012

Optical property improvements for ONP (old newspaper) and OMG (old magazine) were attempted by application of in-situ $CaCO_3$ formation process on recycled fiber surfaces. Washing treatment of ONP and OMG resulted in 35~40% yield loss for around 6% brightness improvement. Washing plus bleaching process with $H_2O_2$ and FAS (formamidine sulfinic acid) improved brightness and ERIC values a little more with the same amount of yield loss as washing treatment. In-situ $CaCO_3$ formation method improved those optical properties much better than the washing plus bleaching method without loss of yield, and better than the case of adding high brightness PCC up to the same ash level. It can be said that the in-situ $CaCO_3$ formation method may be used as an effective alternative for upgrading optical properties of recycled fibers.

• 한국분말재료학회지
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• 제30권4호
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• pp.332-338
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• 2023

Thermite welding is an exceptional process that does not require additional energy supplies, resulting in welded joints that exhibit mechanical properties and conductivity equivalent to those of the parent materials. The global adoption of thermite welding is growing across various industries. However, in Korea, limited research is being conducted on the core technology of thermite welding. Currently, domestic production of thermite powder in Korea involves recycling copper oxide (CuO). Unfortunately, controlling the particle size of waste CuO poses challenges, leading to the unwanted formation of pores and cracks during thermite welding. In this study, we investigate the influence of powder particle size on thermite welding in the production of Cu-thermite powder using waste CuO. We conduct the ball milling process for 0.5-24 h using recycled CuO. The evolution of the powder shape and size is analyzed using particle size analysis and scanning electron microscopy (SEM). Furthermore, we examine the thermal reaction characteristics through differential scanning calorimetry. Additionally, the microstructures of the welded samples are observed using optical microscopy and SEM to evaluate the impact of powder particle size on weldability. Lastly, hardness measurements are performed to assess the strengths of the welded materials.

• 한국건설순환자원학회지
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• 제13권1호
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• pp.8-13
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• 2018

• 한국건설순환자원학회지
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• 제5권2호
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• pp.42-49
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• 2010

• 한국건설순환자원학회지
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• 제14권3호
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• pp.8-16
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• 2019

• 한국건설순환자원학회지
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• 제19권1호
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• pp.39-43
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• 2024

• International Journal of Concrete Structures and Materials
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• 제8권2호
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• pp.165-172
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• 2014

Recycled coarse aggregate (RCA) made from waste concrete is not a suitable structural material as it has high absorption of cement mortar, which adheres on the aggregate surface and on the tiny cracks thereon. Therefore, when using RCA made from waste concrete, much water must be added with the concrete, and slump loss occurs when transporting. Hence, its workability is significantly worse than that of other materials. In this study, surface of RCA was coated with water-soluble polycarboxylate (PC) dispersant so that its characteristics improved. Each possibility was evaluated: whether its slump loss can be controlled, by measuring its workability based on the elapsed time; and whether it can be used as a structural material, by measuring its strength. Moreover, the carbonation due to cement mortar adhesion was measured through a carbonation test. As a result, RCA coated with PC dispersant was found to be better than crushed coarse aggregate and RCA when the physical properties of the fresh concrete and the mechanical, durability of the hardened concrete were tested.

• 한국건설순환자원학회논문집
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• 제6권3호
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• pp.167-173
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• 2018

일반적으로 고로슬래그 미분말 및 플라이애시의 반응에는 칼슘이 필요하게 된다. 순환골재를 생산하는 과정에서 발생하는 공정부산물은 파쇄단계에 따라 칼슘 함량이 다르며, 공정부산물의 콘크리트 혼합재로서의 활용 가능성도 다르게 된다. 본 연구에서는 공정부산물의 칼슘 함량이 압축강도에 미치는 영향을 확인하고, 이를 활용한 블록을 제작하였다. 공정부산물을 혼합재로 활용하기 위해 칼슘 함량을 분석하였으며 저류블록의 형상에 따른 휨강도 및 표면온도를 측정하였다. 연구 수행을 통해 순환골재 공정부산물을 활용한 블록 제작 가능성을 검증하였으며, 저류량 및 휨강도 확보를 위해 아치형의 저류블록을 제작하였다. 또한, 저류블록의 표면온도는 일반투수블록보다 $9^{\circ}C$ 이상 저감되는 것을 확인하였다.

• 한국지반환경공학회 논문집
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• 제6권1호
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• pp.5-13
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• 2005

매립장의 침하메카니즘은 매우 복잡하여 전통적인 토질역학적 방법으로만 해결하는 것은 적절한 방법으로 판단되지 않는다. 매립장은 다량의 유기물질이나 유기질토로 이루어졌기에 분해에 의한 침하방법도 고려하여야한다. 매립장의 유기물질 분해는 혐기성상태에서 분해가 이루어지는데 분해시 발생 가스는 이산화탄소($CO_2$)와 메탄($CH_4$)등의 성분으로 이루어진다. 매립장에서의 유기물질의 분해는 침하와 관계를 가지며 분해는 가스를 생성하므로 발생가스량에 따른 침하예측모델을 제안할 수 있었다. 또한 매립장의 조기안정화 방법으로 사용하는 침출수 재순환법을 적용하여 침출수를 재순환 한 매립조와 재순환을 하지 않은 매립조를 제작하여 가스발생과 침하특성을 비교 분석하였다. 제안한 가스모델을 침출수가 재순환하지 않은 매립조와 재순환한 매립조에 적용할 때는 각각 보정계수 1.4, 1.7이 필요하며 재순환 매립조의 침하촉진효과는 22% 증가하는 것으로 나타났다.

• Smart Structures and Systems
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• 제24권4호
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• pp.541-552
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• 2019

Construction development and greenhouse gas emissions have globally required a strategic management to take some steps to stain and maintain the environment. Nowadays, recycled aggregates, in particular ceramic waste, have been widely used in concrete structures due to the economic and environmentally friendly solution, requiring the knowledge of recycled concrete. Also, one of the materials used as a substitute for concrete cement is wollastonite mineral to decrease carbon dioxide (CO2) from the cement production process by reducing the concrete consumption in concrete. The purpose of this study is to investigate the effect of wollastonite on the mechanical properties and durability of conventional composite concrete, containing recycled aggregates such as compressive strength, tensile strength (Brazilian test), and durability to acidic environment. On the other hand, in order to determine the strength and durability of the concrete, 5 mixing designs including different wollastonite values and recovered aggregates including constant values have been compared to the water - cement ratio (w/c) constant in all designs. The experimental results have shown that design 5 (containing 40% wollastonite) shows only 6.1% decrease in compressive strength and 4.9% decrease in tensile strength compared to the control plane. Consequently, the use of wollastonite powder to the manufacturing of conventional structural concrete containing recycled ceramic aggregates, in addition to improving some of the properties of concrete are environmentally friendly solutions, providing natural recycling of materials.