• 한국건설관리학회:학술대회논문집
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• 한국건설관리학회 2008년도 정기학술발표대회 논문집
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• pp.804-807
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• 2008

최근 건축 구조물의 초고층화 대형화로 인해 고강도화 되는 콘크리트는 치밀한 조직으로 인해 화재시 폭렬에 취약하고, 내화성이 저하되는 문제점을 지니고 있다. 이로 인해 국내에서도 내화의 문제점을 인식하고 방안제도를 마련하고 있으며, 많은 연구진에 의해 고강도 콘크리트의 내화공법이 소개되고 있다. 이에 본 연구에서는 고강도 콘크리트의 내화공법 선정시 중요도를 관련 전문가의 설문조사를 기반으로 AHP 기법을 이용하여 분석하였다. 설문조사를 통한 분석 결과 상위 평가항목의 화재성능과 상시성능 중 내화공법 선정시에는 화재성능이 가장 중요시되는 것으로 나타났다. 화재성능에 대한 하위 항목에서는 인명보호가 중요한 요소로 산정되었고, 인명보호에 대한 하위 항목에서의 설문분석 결과 유해가스 발생억제가 중요한 요소로 산정되었다.

• Structural Engineering and Mechanics
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• 제40권5호
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• pp.595-616
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• 2011

Impact experiments have been carried out on concrete slabs. The first group was traditionally manufactured, densely reinforced concrete targets, and the next were ordinary Portland and calcium aluminate cement based HPSFRC (High performance steel fiber reinforced concrete) and SIFCON (Slurry infiltrated concrete) targets. All specimens were hit by anti-armor tungsten projectiles at a muzzle velocity of over 4 Mach causing destructive perforation. In Part I of this article, production and experimental procedures are described. The first group of specimens were ordinary CEM I 42.5 R cement based targets including only dense reinforcement. In the second and third groups, specimens were produced using CEM I 42.5 R cement and Calcium Aluminate Cement (CAC40) with ordinary reinforcement and steel fibers 2 percent in volume. In the fourth group, SIFCON specimens including 12 percent of steel fibers without reinforcement were tested. A high-speed camera was used to capture impact and residual velocities of the projectile. Sample tests were performed to obtain mechanical properties of the materials. In the companion Part II of this study, numerical investigations and simulations performed will be presented. Few studies exist that examine high-velocity impact effects on CAC40 based HPSFRC targets, so this investigation gives an insight for comparison of their behavior with Portland cement based and SIFCON specimens.

• Advances in nano research
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• 제16권5호
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• pp.459-472
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• 2024

Nanotechnology is a popular field in the construction industry due to its multiple functions. It mitigates CO₂ emissions and enhances the desirable properties of concrete by replacing small amounts of cement with supplements. This study assess the sustainability impact of using two different nanoparticles partially replacing the cement with 0.3%, 0.6%, 1.0% of nano silica (NS) and 0.03%, 0.045%, 0.06% of Multi-Walled Carbon Nanotubes (MWCNT) in the green concrete mix developement. Nano-sized fragments at the atomic scale tends to modify the properties of concrete. Concrete may increase its strength, durability by adding nanocomposite materials, which will decrease the amount of nano and micropores in structural parts. The strength of the structural elements can be greatly improved and allowing them to withstand higher loads and resist deformation. It improved durability properties by 64.8% in water absorption, 56.4% in acid attack, 78.1% in sulphate attack, and 53.4% in chloride attack. There was an improvement in compressive strength of 37% and split tensile strength of 90%. SEM, FTIR, and XRD investigations have used to look at the microstructural characteristics of nanoconcrete dictated the microstructure characteristics may be made more consistent and dense by adding nanocomposite materials.

• 한국건축시공학회지
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• 제10권5호
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• pp.137-143
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• 2010

본 연구는 거푸집에 부착하는 코팅재료에 따른 콘크리트 표면광택도 비교 분석으로서 시멘트모르터로 제작한 시험체의 광택도를 분석하고 유동화제를 혼합한 콘크리트와 혼합하지 않은 콘크리트의 노출콘크리트 표면 광택의 특성을 분석한 것이다. 시멘트모르터를 이용한 코팅재료별 광택도 분석에서 광택도가 가장 높게 나타난 코팅재료는 7번 재료로 액체포장재의 일부이며 2번째는 3번 재료로 투명필름을 이용한 재료이다. 코팅필름의 소재에 따라 광택도가 다르게 나타난 것으로 미루어 소재의 표면입자 상태와 화학적 구성요소의 따라 다른 것으로 판단된다. 콘크리트의 표면상태를 매끄럽게 하기 위해서는 불투수성이며 매우 밀실한 표면을 가진 코팅재료를 사용하는 것이 효과적이다.

• 한국도로학회논문집
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• 제4권1호
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• pp.161-170
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• 2002

본 연구는 폐폴리에틸렌필름(폐비닐)을 아스팔트 혼합물에 첨가하여 아스팔트 포장재료의 품질특성을 향상시키고 환경적으로 문제가 되고 있는 폐비닐을 재활용하기 위한 연구의 일환으로 수행되었다. 폐비닐 사용시 나타날 수 있는 포장체의 특성을 파악하기 위하여 국내에서 가장 많이 수거되는 LDPE 폐비닐을 사용하여 현장에서의 실용성을 고려한 건식혼합법으로 아스팔트 혼합물을 제조하였다. 제조한 혼합물에 대하여 마샬안정도 시험, 간접인장강도 시험, 반복주행시험 및 피로시험을 수행한 결과 폐비닐을 혼합한 혼합물이 일반혼합물에 비하여 인장강도가 향상되고 윤하중에 의한 소성변형 저항성 및 피로균열 저항에 크게 효과적인 것으로 나타났다.

• 한국건축시공학회:학술대회논문집
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• 한국건축시공학회 2013년도 추계 학술논문 발표대회
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• pp.68-71
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• 2013

Reactive Powder Concrete (RPC) is an ultra high strength and high ductility cement-based composite material and has shown some promise as a new generation concrete in construction field. It is characterized by a silica fume-cement mixture with very low water-binder (w/b) ratio and very dense microstructure, which is formed using various powders such as cement, silica fume and very fine quartz sand (0.15~0.4mm) instead of ordinary coarse aggregate. However, the unit weight of cement in RPC is as high as 900~1,000 kg/㎥ due to the use of very fine sand instead of coarse aggregate, and a large volume of relatively expensive silica fume as a high reactivity pozzolan is also used, which is not produced in Korea and thus must be imported. Since the density of RPC has a heavy weight at 2.5~3.0 g/㎤. In this study, the modified RPC was made by the combination of ternary pozzolanic materials such as blast furnace slag and fly ash, silica fume in order to economically and practically feasible for Korea's situation. The fire resistance and structural behavior of the modified RPC exposed to high temperature were investigated.

• Advances in concrete construction
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• 제8권2호
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• pp.127-137
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• 2019

Roller Compacted Concrete (RCC) is a zero slump concrete consisting of a mixture of cementitious materials, sand, dense graded aggregates and water. In this study, an attempt has been made to investigate the effect of aggregate type on strength and abrasion resistance of RCC made by using granulated blast furnace slag (GGBS) as partial replacement of cement. Mix proportions of RCC were finalized based upon the optimum water content achieved in compaction test. Two different series of RCC mixes were prepared with two different aggregates: crushed gravel and limestone aggregates. In both series, cement was partially replaced with GGBS at a replacement level of 20%, 40% and 60%. Strength Properties and abrasion resistance of the resultant mixes was investigated. Abrasion resistance becomes an essential parameter for understanding the acceptability of RCC for rigid pavements. Experimental results show that limestone aggregates, with optimum percentage of GGBS, perform better in compressive strength and abrasion resistance as compared to the use of crushed gravel aggregates. Observed results are further supported by stoichiometric analysis of the mixes by using basic stoichiometric equations for hydration of major cement compounds.

• 방사성폐기물학회지
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• 제7권2호
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• pp.79-86
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• 2009

원자력시설의 콘크리트 폐기물은 서로 다른 메카니즘에 의해 다양한 핵종에 의해 방사화 되거나 오염된다. 우라늄 변환시설 및 연구로 해체 시 발생된 오염된 콘크리트의 부피감용을 위해 가열 분쇄 실험에 의해 자갈, 모래, 페이스트의 골재의 크기에 따른 핵종의 분배특성에 대해 고찰하였다. 실험결과 대부분의 방사성 핵종은 골재로부터 제거되어 페이스트에 존재하였으며 특히, 가열 온도는 방사성 핵종을 오염된 콘크리트 폐기물로부터 분리하는데 중요한 변수로 확인되었다. 즉, 콘크리트 표면에 오염된 물질은 밀도가 높은 자갈, 모래보다는 다공성 물질의 페이스트에 농축되었다. 방사화 콘크리트에서는 80%, 우라늄 변환시설의 콘크리트 폐기물에서는 약 75% 정도의 부피감용을 얻었다.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2004년도 춘계 학술발표회 제16권1호
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• pp.232-235
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• 2004

This study aims to manufacture non-sintering cement(NSC) by adding phosphogypsum(PG) and waste lime(WL) to granulated blast furnace slag(GBFS) as sulfate and alkali activators. This study also investigates the basic physical properties and hydration reaction of NSC, and evaluates its reusing possibility as construction material. Results obtained from this study have shown that GBFS was affected by $So_4^{2-}$ in waste PG and stimuli under wet condition, left slag components, created Ettringite and CSH gels, and eventually started being hydrated. These hydrated creations formed dense structures like CSH based on Ettringite and contributed in allowing the mortar to reveal high strength.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2005년도 추계 학술발표회 제17권2호
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• pp.607-610
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• 2005

If cement can be manufactured with industrial byproducts such as granulated blast furnace slag(GBFS), phosphogypsum(PG), and waste lime(WL) instead of clinker as its counterproposal, there would be many advantages, including maximum use of these industrial byproducts for high value-added resources, conservation of natural resources and energy by omitting the use of clinker, minimized environmental pollution problems caused by $CO_2$ discharge, and reduction of the production cost. This research investigates the chemical resistance of NSC mortar added PG and WL to GBFS as sulfate and alkali activators. The result of experiment of chemical resistance, showed that NSC is very excellent in acid resistance and seawater resistanc. Such a reasons are that the hydrate like CSH gel and ettringite formed dense pore structure of NSC matrix.