• Geomechanics and Engineering
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• 제20권3호
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• pp.233-241
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• 2020

Alkali-silica reaction (ASR) is among one of the most important damaging mechanisms in concrete, depending primarily on aggregates which contain reactive minerals. However, expansion in concrete may not directly relate to the reactive minerals. This study aims to investigate the influence of ASR and the expansion of mortar bars depending on aggregate type containing various components such as quartz, clay minerals (montmorillonite and kaolinite) and micas (muscovite and biotite). In this study, the accelerated mortar bar tests (AMBT) were performed in two conditions (mortar bars in the same and sole NaOH solutions). Petrographic thin section studies, X-ray diffraction (XRD) analysis (Rietveld method), scanning electron microscopy (SEM) and chemical analyses were carried out. This study showed that quartzite bars led to increase in expansion values of mortar bars in diabase-1 and andesite when these were in the same NaOH solution. However, three samples (basalt, quartzite and claystone) were found having ASR expansion based on the AMBT when the special molds were used for each sample. SEM study revealed that samples which exhibit highest expansions according to AMBT had a generally rough surface and acicular microstructures in or around the micro-cracks. Basalt and quartzite showed more variable in major oxides than those of other samples based on the chemical analyses, SEM studies and AMBT. This study revealed that the highest expansions were observed to source not only from reactive aggregates but also from alteration products (silicification, chloritization, sericitization and argillisation), phyllosilicates (muscovite, biotite and vermiculite) and clays (montmorillonite and kaolinite).

• 한국세라믹학회지
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• 제44권9호
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• pp.510-516
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• 2007

After observing the alkali-silica reaction of the mortar that contains glass abrasive sludge, when evaluating it by a mineral or chemical point of view, it contained reactive silica $(59{\sim}67%)$ and $R_20$ elements $(4.3{\sim}9.8%)$. Also, when evaluated by the mortar bar method, an addition of 5 wt% of CRT glass abrasive sludge is judged harmless. However when adding more, there appear severe contractions, thus carefulness is needed while using. Less than 0.10% of expansion was measured when adding up to 30wt% of flat glass abrasive sludge. However, after 30 days of the measurement, more than 0.1% rate of expansion was measured when adding more than 5 wt%. Therefore, more detailed experiments are needed in case of more than 5 wt%.

• 콘크리트학회지
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• 제6권2호
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• pp.108-117
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• 1994

국내에서는 아직 알칼리-골재 반응으로 인한 피해가 보고되지는 않았지만, 해사와 쇄석의 사용이 증가하고 있어 이에 대한 연구가 시급히 진행되어야 할 것으로 사료되어, 화학법(KS F 2545, ASTMC 289)과 모르터바법(KS F 2546, ASTM C 227)을 중심으로 실험을 행하여 국내산 쇄석1종과 국외산 쇄석 1종이 유해로 판정되었으며, 첨가알칼리성량 및 종류를 달리하여 실시한 모르터바법 시험결과 첨가 알카리로 NaCl사용시 가장 높은 팽창을 하였다. 또한, 모르터바의 표면 및 내부의 반응생성물을 SEM에 의한 관찰과 EDXA에 의한 성분분석을 실시하여 알칼리와 실리카성분으로 이루어진 알칼리 실리케이트 겔임이 판명되어 국내에서 알칼리 반응성을 나타내는 골재의 존재가 처음으로 확인되었다.

• 한국도로학회논문집
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• 제14권6호
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• pp.37-43
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• 2012

PURPOSES : This study is to evaluate the feasibility of setting the standard of cement alkali content by using ASTM C 1260(accelerated mortar bar test) METHODS : This study analyzes the ASR(alkali silica reaction) expansion of cement mortar bar based on the changes in the aggregate type(fine, coarse), cement type(ordinary, low alkali), and replacement contents of fly ash. ASR tests were conducted according to ASTM C 1260. RESULTS : In this test results, There is no big difference in the ASR expansion between ordinary cement and low alkali cement. From this test results, it was found that the variation of cement alkali content did not have a effect on ASR expansion because mortar bar was placed in a container with sufficient alkali aqueous solution at high temperature during the test process of ASTM C 1260. CONCLUSIONS : It is evidently clear that the alkali content of cement have a effect on ASR. But ASTM C 1260 is difficult to assess this effect.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 1993년도 가을 학술발표회 논문집
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• pp.103-107
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• 1993

The Alkali Aggregate Reaction(AAR), reported first by T. E. Stanton in 1940, is a reaction between certain siliceous aggregate and hydroxyl ions present in the pore fluid of a concrete. The damage of concrete structures, deteriorated by AAR, have been reported since using the crushed stones caused by the exhaustion of natural aggregates. This study was performed to investigate the AAR of crushed stones using chemical analysis, polarization microscope, XRD, chemical method(KS F 2545, ASTM C 289), mortar bar method(KS F 2546, ASTM C 227) and Scanning Electron Microscope(SEM) and Energy Dispersive X-ray Analysis (EDXA) of reaction products by AAR in mortar bar.

• 한국건축시공학회:학술대회논문집
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• 한국건축시공학회 2020년도 봄 학술논문 발표대회
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• pp.96-97
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• 2020

Polymer modified cement mortar (PCM) is commonly used as a repair material. However, in high-temperature environments such as fire, it is more likely to explode than cement mortar. The polymer is thermally decomposed at a high temperature to form a gas, and the gas remaining inside the structure increases the internal pressure to generate a burst. When an spalling occurs, the coating is peeled off and dropped, and high temperature is transmitted to the inside of the structure. In severe cases, even the reinforcing bar is exposed, which can lead to the collapse of the structural member due to severe loss of strength. In this study, in order to reduce spalling of PCM, a fiber mixing method was selected from the refractory method to find an appropriate blending ratio of fibers and polymers.

• 한국콘크리트학회:학술대회논문집
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• 한국콘크리트학회 2000년도 가을 학술발표회논문집(I)
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• pp.363-368
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• 2000

This paper is an introduction of pessimum program for the identification of alkali-silica reaction of alkali-aggregate reaction which is known as one of a major factor of concrete deterioration. A series of gel-pat testing program was undertaken to observe the reactivity of potentially alkali-silica reactive concrete aggregates which were found to be reactive by previous petrographic examination (ASTM C 295). And then a pessimum program was performed in accordance with mortar-bar test method (ASTM C 227) with different percentage of those reactive components included in the fine aggregate source to determine the pessimum quantity. Chert and quartzite were found to be major components of reactive mineral/rock, and the pessimum condition for chert was about 3%, even though the test was performed with up to 25% of the component. In the case of quartzite, however, the mortar-bar expansion appeared to be directly proportional to the amount of quartzite sample with increasing tested quantity up to 35%. Both of the expansion results were well 3 and 6 month specified maximum limitation of 0.05% and of 0.1% respectively.

• 콘크리트학회논문집
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• 제13권5호
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• pp.516-524
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• 2001

여러가지 철근이음 방법중에서 고강도 모르타르 충전식 철근이음은 철근위치의 오차를 쉽게 흡수하여 시공이 용이하고 또한 최근에 많이 사용되고 있는 대구경 철근에 대해서도 적용성이 양호하기 때문에 프리캐스트 공법의 철근이음 방법으로 매우 유효한 수단이 된다. 이에 본 연구에서는 모르타르 충전식 철근이음법의 적용범위를 보다 확장하기 위하여 슬리브에 매입되는 철근직경이 상이한 경우와 충전 모르타르 강도를 700kgf/$\textrm{cm}^2$대로 낮춘 경우의 모르타르 충전식 철근이음에 대한 단조 및 반복가력 구조성능 실험을 실시한 후에 기존 실험결과와의 비교 분석을 통하여 다음과 같은 결론을 얻었다. 충전 모르타르 압축강도가 증가할수록 전체적인 구조성능은 증가하는 경향을 나타내었고 충전 모르타르 압축강도가 700kgf/$\textrm{cm}^2$이상이고 철근정착길이가 6.5d 이상이면 A급(AIJ 철근이음 성능 판정기준) 이상의 구조성능을 보유하고 있는 것이 확인되었다. 또한 슬리브 양단에 매입되는 철근의 직경이 상이한 경우는 굵은 철근에 대응되는 슬리브를 사용해야 하고 매입되는 가는 철근은 굵은 철근보다 2단계까지 가는 것을 사용할 수 있다는 것이 확인되었다.

• 한국건축시공학회:학술대회논문집
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• 한국건축시공학회 2015년도 추계 학술논문 발표대회
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• pp.7-8
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• 2015

The purpose of this study is to investigate the expansion of alkali-activated geopolymer mortar containing reactive aggregate due to alkali-silica reaction. In addition, this study is particularly concerned with the behavior of these alkaline materials in the presence of reactive aggregates. The test method included expansion measurement of the mortar bar specimens and geopolymer compressive strength test. Major results that alkali-activated geopolymer mortars showed expansion due to the alkali-silica reaction. geopolymer mortars is safety for the expansion exhibited less than 0.2% at 14 day.

• 지질공학
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• 제6권3호
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• pp.155-163
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• 1996

현행 ASTM C227-90은 모르타봉 시험법에 대한 규정인데 동 규정에 의하면 시험용 모르타르봉으 제작에 골재와 시멘트를 각각 675g과 300g을 쓰도록 무게비로 제시하고 있으며 제작된 모르타르봉의 초기길이 측정시기는 $24{\pm}2$시간으로 규정되어 있다. 또한 모르타르봉의 팽창원인을 알카리-골재반응에 두고 있다. ASTM C490-93a는 모르타르봉의 제작방법과 팽창률 계산방법이 소개되어 있는데 규정에 의하면 계산공식으 분모 G값을 10" 혹은 250mm로 고정시키고 있다. 본 연구는 위에 소개한 내용에 대한 실험적 연구를 통하여 다음과 같은 결론에 도달하였다. 첫째, 모르타르봉의 팽창은 알카리-골재반응만에 의한 것이 아니고 그 외 간극수와 겔수의 복합적인 작용에 의한 것이므로 ASTM C227-90의 내용을 일부 수정할 필요가 있다. 둘째, 골재에 의한 모르타르봉의 팽창원인 즉 알카리-골재반응과 간극수에 의한 팽창량을 알기 위하여는 골재와 시멘트의 배합비를 무레비 대신에 부피비로 제시함이 바람직 하다. 세째, ASTM C227-90과 ASTM C490-93a에서 제시한 모르타르봉의 초기길이 측정시기와 팽창률 계산방법은 더욱 정밀한 계산결과를 얻기 위하여 부분적인 수정이 필요하다.