PURPOSES : In this study, the alkali aggregate reactivity and expansion characteristics of mortar mixed with waste glass (a recycled aggregate) were confirmed to verify the alkali-silica reaction (ASR) stability and review the appropriateness of the alkali aggregate reactivity test method following the replacement of recycled aggregate. METHODS : The alkali-aggregate reactivity of waste glass aggregates was measured using the chemical and physical methods described in KS F 2545 and ASTM C 1260, respectively. The reactivity was classified by comparing the results. Cement with a high-alkali content was used to simulate an environment that can induce ASR. Non-reactive fine aggregates, waste glass fine aggregates, reactive general aggregates, and Ferronickel slag aggregates were used as control groups. RESULTS : Waste glass fine aggregates were classified as reactive when applying the chemical method. In the physical method, they were classified as reactive at 100% and latent reactive at 1%, based on the mixing ratio. Additionally, we discovered that the reliability of the chemical method was low since the ASR of the aggregates was classified differently based on the evaluation method, while the results of the chemical and physical test methods were inconsistent. CONCLUSIONS : To determine the alkali reactivity of recycled aggregates, the complex use of chemical and physical methods and analysis based on the mixing ratio of the reactive aggregates are required. Small amounts of waste glass aggregate replacements affected the ASR. Because ASR reaction products can affect the long-term thermal expansion of the structure, further research is needed to use ASR aggregates in structures.

고밀도 폐유리가 콘크리트를 포함하는 건설 재료로 사용 가능함이 밝혀짐에 따라 본 연구에서는 고밀도 폐유리를 잔골재로 적용한 RC 부재의 구조적 거동을 평가하고자 휨거동 실험을 수행하고 그 결과를 비선형 유한요소해석 결과와 비교 검토하였다. 그 결과, 고밀도 폐유 리를 잔골재로 사용하게 되면, 균열 개수가 감소하고 균열 간격 및 압괴 면적이 증가하였다. 또한, 고밀도 폐유리를 잔골재로 대체한 부재는 높은 처짐 단계에서 연성이 감소되었다. 이러한 이유로 천연골재를 사용한 부재와 동일한 방법의 해석 기법은 고밀도 폐유리를 잔골재로 대체한 부재의 휨거동에 대한 초기강성, 항복하중 및 최대하중을 제대로 예측하지 못하는 것으로 나타났으나, 압괴 진전에 따른 중립축 깊이가 감소하는 것을 해석적으로 구현하게 되면, 비선형 유한요소 해석 결과가 실험결과를 비교적 잘 예측하는 것으로 나타났다.

In this paper, the flexural behavior of RC member recycled heavy weight waste glass as fine aggregate was evaluated by finite element analysis. From the results, the analytical results do not reflect the experimental results. This is because the stress-strain curve of the concrete specimen obtained from the compression test was used as the input data for the ABAQUS. Therefore, the ABAQUS, based on the experimental results of the stress-strain relationship of concrete, predicted the load-displacement relationship without considering the reduction in load capacity.

건전자제품의 개발과 생산기술에 비교하여 폐유리의 재활용을 위한 기술개발은 상대적으로 미흡하여 자원낭비와 환경오염이 가속화되고 있다. 해외에서는 이 분야에 대한 기술개발이 활발하게 이루어지고 있으나 국내의 경우, 그 관심도가 부족하여 폐유리를 불법투기 또는 매립으로 처리하고 있는 실정이다. 폐유리는 시멘트와 수화반응시 포졸란 반응가능성이 있는 것으로 확인되어 경화 콘크리트의 물리적 성질을 향상시키고 굳지 않은 콘크리트의 레올로지 특성을 개선하여 블리딩의 저감 및 수화열 발생의 억제 등에 효과적인 것으로 보고되고 있다. 따라서 본 논문에서는 폐유리를 잔골재로 사용한 차폐콘크리트의 알칼리-실리카반응이 팽창에 미치는 영향을 분석하고 폐유리 혼입에 의한 알칼리-실리카반응의 팽창을 억제하기 위한 방안으로 적정 혼화재료를 사용하여 차폐콘크리트의 내구성능을 평가하였다.

최근 들어, 첨단산업의 발전으로 다양한 종류의 산업폐기물이 빠르게 발생하고 있다. 특히, 산업폐기물 중 중금속을 함유한 고밀도의 폐 브라운관 유리는 재처리 비용과 환경오염 문제로 인해 전량 매립‧처분되고 있다. 따라서 이러한 폐자원을 재활용하기 위한 기초 연구가 필요한 실정이다. 이에 본 연구에서는 중금속이 함유된 CRT 폐유리를 잔골재로 대체한 모르타르 시험체의 기초 물성과 방사선 차폐 성능을 분석하여 차폐 재료로의 활용성을 평가하였다. 연구 결과에 따르면 중금속을 함유한 CRT 폐유리를 잔골재로 대체한 시험체의 겉보기 밀도가 상승하였으며, 압축강도와 휨강도는 저하되는 현상을 나타냈다. 또한, 납 성분이 다량 함유된 폐유리 대체 시험체는 일반 모르타르 시험체보다 저에너지의 차폐 성능이 상승하는 효과를 보였으며, 122KeV·57Co 방사선원에 대해서는 일반 모르타르 시험체보다 2.5배 높은 선형감쇠계수를 나타냈다.

In this study, the properties of mortar substituted heavyweight waste glass were evaluated. From the results, the flow value and density increased as the substitution ratio of heavyweight waste glass increased, and compressive and flexural strength decreased.

In this paper, the flexural behaviors with substitution ratio of heavyweight waste glass are compared and evaluated in reinforced concrete members. From the results, when the heavyweight waste glass was used as the fine aggregate, the yielding load (Py) and maximum load (Pu) were less affected. However, the load capacity of the RC member was gradually reduced on the large deformed stage when all of the fine aggregate was replaced by heavyweight waste glass.

In this study, the characteristics of density and flow value of mortar substituted heavy weight waste glass were compared with the aggregate ratio. From the results, the density and flow value increase as the substitution of waste glass increase, however, it is considered that the increase of the aggregate ratio of 30% or more does not contribute to the increase of the density.

Filler material (concrete or mortar) has been used for shielding radioactive waste, however, it is proceeded out evaluation for radiation shielding performance. So, it is needed to check the property in the shielding performance. Therefore, in this paper, mechanical properties of concrete was evaluated for the applicability using heavyweight waste glass as fine aggregate of filler material. From the test results, compressive and elasticity modulus were significantly affected by substitution of heavyweight waste glass, however, it could be improved the performance by using mineral admixture as binder.

Electrical waste, such as heavy weight waste glass, has become a global concern in terms of resource recycling. At the same time, aggregate is one of the most widely used infrastructure materials, and it is being exhausted. So, in this paper, the heavy weight waste glass is considered as aggregate due to its physical characteristics and chemical composition. From the results, when the heavy weight waste glass substitution ratio increase, the compressive strength and flexural strength decreased.

In this paper, the sulfate resistance of concrete substituted the crushed heavy weight waste glass as fine aggregate are compared and evaluated. From the results, when heavy weight waste glass substituted ratio increase, the reduction rate of compressive strength is decreased. So, the sulfate resistance is improved by using heavy weight waste glass in concrete.

It is necessary to investigate the possibility of high density material as an ingredient in the manufacturing of radiation shielding material. In this study, the suitability of heavy weight waste glass as a shielding material is considered. From the results, it was found that when the heavy weight waste glass substitution ratio increases, radiation shielding performance also increase.

In this paper, the flexural behavior of RC member recycled heavy weight waste glass as fine aggregate was evaluated by finite element analysis. From the results, yield point and maximum load decreased with decreasing concrete strength and elastic modulus. Also, the finite element analysis program does not reflect the ductility loss of RC members using heavy weight waste glass as fine aggregate.

In this paper, the sulfate resistance of concrete substituted the crushed heavy weight waste glass as fine aggregate are compared and evaluated. From the results, when heavy weight waste glass substituted ratio increase, the reduction rate of compressive strength is decreased. So, the sulfate resistance is improved by using heavy weight waste glass in concrete.

It is necessary to investigate the possibility of high density material as an ingredient in the manufacturing of radiation shielding material. In this study, the suitability of heavy weight waste glass as a shielding material is considered. From the results, it was found that when the heavy weight waste glass substitution ratio increases, radiation shielding performance also increase

As the industrialization is rapidly growing, the quantities of industrial waste glass have been quickly increased. However the most of them are not recycled. Therefore, it is needed to investigate the possibility of industrial waste glass as concrete material ingredient. In this paper, it is compared and evaluated that the characteristics of freeze-thaw resistance according to industrial waste glass substitution ratio in concrete specimens. From the results, the weight change was not affected by the waste glass substitution ratio. And, the relative dynamic modulus of elasticity was increased slightly with the waste glass substitution ratio. The relative dynamic modulus of elasticity was above 80% up to 300cycles in all of the mixes.

Along with the increased display devices, the supply for LCD waste glass has rapidly increased. However, there is a problem for recycling. In this study, the possibility of using LCD waste glass as a substitutive material of fine aggregate is determined and compared from the test of the compressive strength and split tensile strength. Finally, it is possible to confirm the results of the failure aspect and analysis of this test.

In this paper, the heavy metal leaching of mortar substituted the crushed waste glass as fine aggregate are evaluated. From the results, when the heavy weight waste glass substitution ratio increase, leching quantities of heavy metal is increased. Therefore, it is needed that the characteristics of heavy metal leching according to waste glass substitution ratio in mortar specimens.

급격한 산업화와 삶의 질의 변화로 인해 생산된 고밀도 폐유리의 양은 꾸준히 증가하고 있으나 대부분 재활용되지 못하고 있다. 특히 고밀도 폐유리의 경우 불법적으로 처리되거나 매립되는 실정이다. 한편, 원전구조물의 안전성 확보를 위해 차폐 성능이 우수한 재료가 사회적으로 요구되고 있다. 콘크리트는 가장 많이 사용되고 있는 건설재료이며, 많은 양의 자원들이 콘크리트를 생산하기 위해 사용되고 있다. 따라서 고밀도 폐유리를 차폐 콘크리트 재료로 재활용할 수 있는 방안에 대한 연구가 요구되어진다. 본 연구에서는 고밀도 폐유리를 차폐 콘크리트 잔골재로의 적용가능성을 평가하였다. 결과에 따르면, 폐유리를 혼입한 모르타르의 경우, 일반 모르타르에 비하여 단위용적질량이 증가하여 차폐 성능 개선이 가능할 것으로 판단된다. 폐유리 혼입에 의해 강도는 감소하는 것으로 나타났으며, 세척의 경우보다 비세척의 경우에 강도 발현이 유리한 것으로 나타났다.

As the industrialization is rapidly growing and the quantities of heavy weight waste glass have been quickly increased but the most of them are not recycled. The heavy weight waste glass have been treated by illegal dumping or being buried in landfills. And, it is caused some problem such as the environmental pollution. So, it is needed to investigate the possibility of recycling of heavy weight waste glass as concrete material ingredient. In this paper, the mechanical properties of mortar substituted the crushed waste glass as fine aggregate are evaluated. From the results, when waste glass substitution ratio increase, fluidity and specific gravity increase. However, the compressive strength and flexural strength decrease. So, the mechanical properties of mortar are significantly affected by waste glass substitution ratio.