• 제목/요약/키워드: aggregate-mortar interface

검색결과 15건 처리시간 0.034초

순환잔골재를 사용한 모르타르의 제물성에 관한 실험적 연구 (A Study on the Properties of Mortar with Recycled Fine Aggregate)

  • 문대중;최재진
    • 한국건설순환자원학회논문집
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    • 제4권1호
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    • pp.96-100
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    • 2009
  • 모재콘크리트의 품질이 각기 다른 순환잔골재의 특성을 모르타르 시험에 의해 비교 고찰하였다. 모재콘크리트 강도가 클수록 밀도가 컸으며, 부착 시멘트페이스트의 공극량이 감소하므로 흡수율은 작게 나타났다. 순환잔골재를 사용한 모르타르의 압축강도 및 휨강도 특성은 신모르타르의 계면영역과 순환잔골재에 부착된 모르타르의 강도에 의해 지배적인 영향을 받으며, 모재콘크리트의 강도가 작을수록 다공성 재료가 되므로 강도발현이 작게 나타났다. 재령 180일에서 순환잔골재를 사용한 모르타르의 건조수축은 약 $1800{\sim}2000{\mu}m/m$ 정도로 천연잔골재를 사용한 모르타르보다 1.5배 정도 크게 나타났는데 이것은 순환잔골재에 부착된 모르타르가 다공성으로 흡수율이 크기 때문에 나타난 결과로 판단된다. 그러나 동결융해시험에서 순환잔골재를 사용한 모르타르의 내구성은 천연골재와 비슷한 수준으로 모재콘크리트의 강도에 의한 영향은 크지 않은 것으로 나타났다.

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Recovery of mortar-aggregate interface of fire-damaged concrete after post-fire curing

  • Li, Lang;Zhang, Hong;Dong, Jiangfeng;Zhang, Hongen;Jia, Pu;Wang, Qingyuan;Liu, Yongjie
    • Computers and Concrete
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    • 제24권3호
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    • pp.249-258
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    • 2019
  • In order to investigate the strength recovery of fire-damaged concrete after post-fire curing, concrete specimens were heating at $2^{\circ}C/min$ or $5^{\circ}C/min$ to 400, 600 and $800^{\circ}C$, and these exposed specimens were soaked in the water for 24 hours and following by 29-day post-fire curing. The compressive strength and split tensile strength of the high-temperature-exposed specimens before and after post-fire curing were tested. The proportion of split aggregate in the split surfaces was analyzed to evaluate the mortar-aggregate interfacial strength. After the post-fire curing process, the split tensile strength of specimens exposed to all temperatures was recovered significantly, while the recovery of compressive strength was only obvious within the specimens exposed to $600^{\circ}C$. The tensile strength is more sensitive to the mortar-aggregate interfacial cracks, which caused that the split tensile strength decreased more after high-temperature exposure and recovery more after post-fire curing than the compressive strength. The mortar-aggregate interfacial strength also showed remarkable recovery after post-fire curing, and it contributed to the recovery of split tensile strength.

The fractal analysis of the fracture surface of concretes made from different coarse aggregates

  • Prokopski, Grzegorz;Konkol, Janusz
    • Computers and Concrete
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    • 제2권3호
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    • pp.239-248
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    • 2005
  • The article presents the results of examination of the fractal dimension D of concrete specimen fracture surfaces obtained in fracture toughness tests. The concretes were made from three different types of coarse aggregate: gravel, dolomite and basalt aggregate. Ordinary concretes (C40) and high-performance concretes (HPC) were subjected to testing after 7, 14, 28 and 90 days of curing, respectively. In fracture toughness and compressive tests, different behaviours of concretes were found, depending on the type of aggregate and class of concrete (C40, HPC). A significant increase in the strength parameters tested occurred also after a period of 28 days (up to the $90^{th}$ day of curing) and was particularly large for concretes C40. Fractal examinations performed on fracture replicas showed that the fractal dimension D was diverse, depending on the coarse aggregate type and concrete class being, however, statistically constant after 7 and 14 days for respective concretes during curing. The fractal dimension D was the greater, the worse strength properties were possessed by the concrete. A cross-grain crack propagation occurred in that case, due to weak cohesion forces at the coarse aggregate/mortar interface. A similar effect was observed for C40 and HPC made from the same aggregate. A greater dimension D was exhibited by concretes C40, in which case the fracture was easier to form compared with high-performance concretes, where, as a result of high aggregate/mortar cohesion forces, the crack propagation was of inter-granular type, and the resulted fracture was flatter.

예비가열법에 의한 폐콘크리트 재생골재의 물성개선 (The Improvement of Properties of Recycled aggregates using Concrete Waste by Pre-heating Method.)

  • 최현수;김효열;최봉철;강병희
    • 한국건축시공학회:학술대회논문집
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    • 한국건축시공학회 2003년도 학술.기술논문발표회
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    • pp.73.2-79
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    • 2003
  • The purpose of this study is to provide the basic data on the optimum method for interfacial separation for an effective recycle of concrete waste by using the thermal properties of concrete. Therefore, this study is proceeded by dividing the interface of concrete into cement paste and fine aggregates or mortar and coarse aggregate, considering the aspect of recycled cement and aggregate as the recycling use of concrete waste. As results of the experiment, in case of recycle cement, the interfacial separation is easily appeared, but it is shown that the mixed amount of powder included in fine aggregate doesn't greatly decrease. But, in case of recycle coarse aggregate, the effect of interfacial separation by preliminary heating is predominant. Especially, the bonding rate of mortar is the lowest when it is heated 5 times for 120 minutes at $300^{\circ}C$. Hence, it is considered that it will be an excellent effect of quality control when the results of this study is applied to a manufacturing system of recycle coarse aggregate which is about to put into practical use.

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계면파괴인성과 콘크리트 역학적 성질의 상관관계 (Corelationship between Interfacial Fracture Toughness and Mechanical Properties of Concrete)

  • 이광명;안기석;이회근;김태근
    • 한국콘크리트학회:학술대회논문집
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    • 한국콘크리트학회 1998년도 봄 학술발표회 논문집(I)
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    • pp.359-364
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    • 1998
  • The interfacial zone in concrete materials is extensive, geometrically complex, and constitutes inherently weak zones that limit the concrete performance. Motar-aggregate interfaces play a major role in the fracture processing in concrete composites. Also, the interfacial bond considerably influence mechanical properties of concrete such as modulus of elasticity, strength, and fracture energy, Characterization of the interfacial properties is, therefore, essential to overcome the limitations associated with the interfaces. an objective of this paper is to investigate the corelationship between the fracture toughness of mortar-aggregate interface and the concrete properties such as strengths and elastic moduli. It is observed from the test results that interface fracture toughness is closely related with the compressive strength rather than other properties. At early ages, the development of both tensile strength and elastic modulus are much greater thatn that of both interface fracture toughness and compressive strength.

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A proposal for an approach for meso scale modeling for concrete based on rigid body spring model

  • Zhao, Chao;Shi, Zheng;Zhong, Xingu
    • Computers and Concrete
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    • 제27권3호
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    • pp.283-295
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    • 2021
  • Existing meso-scale models of concrete need to refine the mesh grids of aggregate and cement mortar, which may greatly reduce the computational efficiency. To overcome this problem, a novel meso-scale modeling strategy, which is based on rigid body spring method and Voronoi diagram, is proposed in this study to establish the meso-scale model of concrete. Firstly, establish numerical aggregate models according to user-defined programs. Circle aggregates are adopted due to their high efficiency in generation and packing process, and the grading of aggregate are determined according to the distribution curve proposed by Full and Thompson; Secondly, extract the centroids of aggregates, and then develop the Voronoi diagram in which aggregate centroids are defined as initial scatters; Finally, establish the rigid body spring model for concrete based on the Voronoi diagram. Aggregates are represented by rigid blocks, and assumed to be unbreakable. Cement mortar is concentrated into the interface between adjacent blocks and represented by two uniform springs. The number of grids is consistent with that of aggregates in specimens, and no mesh-refinement of aggregates and cement mortar is required. The accuracy and efficiency of the proposed modeling strategy are firstly identified by comparing the numerical results with the experimental ones, and then the applicability of the proposed strategy with different volume percentage occupied by aggregates is investigated.

Modeling mesoscale uncertainty for concrete in tension

  • Tregger, Nathan;Corr, David;Graham-Brady, Lori;Shah, Surendra
    • Computers and Concrete
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    • 제4권5호
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    • pp.347-362
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    • 2007
  • Due to heterogeneities at all scales, concrete exhibits significant variability in mechanical behavior from sample to sample. An understanding of the fundamental mechanical performance of concrete must therefore be embedded in a stochastic framework. The current work attempts to address the connection between a two-dimensional concrete mesostructure and the random local material properties associated within that mesostructure. This work builds on previous work that has focused on the random configuration of concrete mesostructures. This was accomplished by developing an understanding of the effects of variations in the mortar strength and the mortar-aggregate interfacial strength in given deterministic mesostructural configurations. The results are assessed through direct tension tests that are validated by comparing experimental results of two different, pre-arranged mesostructures, with the intent of isolating the effect of local variations in strength. Agreement is shown both in mechanical property values as well as the qualitative nature of crack initiation and propagation.

Simulation of fracture in plain concrete modeled as a composite material

  • Bui, Thanh T.;Attard, Mario M.
    • Computers and Concrete
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    • 제2권6호
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    • pp.499-516
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    • 2005
  • A composite model is used to represent the heterogeneity of plain concrete consisting of coarse aggregates, mortar matrix and the mortar-aggregate interface. The composite elements of plain concrete are modeled using triangular finite element units which have six interface nodes along the sides. Fracture is captured through a constitutive single branch softening-fracture law at the interface nodes, which bounds the elastic domain inside each triangular unit. The inelastic displacement at an interface node represents the crack opening or sliding displacement and is conjugate to the internodal force. The path-dependent softening behaviour is developed within a quasi-prescribed displacement control formulation. The crack profile is restricted to the interface boundaries of the defined mesh. No re-meshing is carried out. Solutions to the rate formulation are obtained using a mathematical programming procedure in the form of a linear complementary problem. An event by event solution strategy is adopted to eliminate solutions with simultaneous formation of softening zones in symmetric problems. The composite plain concrete model is compared to experimental results for the tensile crack growth in a Brazilian test and three-point bending tests on different sized specimens. The model is also used to simulate wedge-type shear-compression failure directly under the loading platen of a Brazilian test.

일인산 암모늄 수용액 분사 및 침지처리가 순환잔골재의 물성 변화에 미치는 영향 (Effect of Spray and Immersion Treatment of Mono-Ammonium Phosphate Solution on Properties of Recycled Fine Aggregate)

  • 권성준;김승호;박찬우;정철우
    • 한국건설순환자원학회논문집
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    • 제12권3호
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    • pp.314-321
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    • 2024
  • 최근 천연골재의 고갈로 순환골재의 재활용 확대가 절실한 상황에 도달하였다. 순환골재 생산 공정에서 발생된 미세균열 및 표면에 부착된 시멘트 페이스트는 순환골재 재활용의 가장 큰 걸림돌로 작용해 왔는데, 본 연구에서는 이러한 문제를 해결하기 위해, 순환골재의 pH 저감에 효과적으로 알려진 일인산 암모늄 수용액을 활용하였다. 다양한 농도의 일인산 암모늄 수용액을 활용하여 순환잔골재의 분사 및 침지처리를 실시하였고, 처리 전 후의 물성 변화를 관찰하였으며, 최종적으로 모르타르 시험체를 제작하여 압축강도를 평가하였다. 실험 결과에 따르면, 일인산 암모늄 수용액 분사 및 침지처리를 하는 경우 순환잔골재의 흡수율은 증가하고 pH는 감소하였다. 내부의 공극 및 균열에 존재하는 수산화칼슘 및 에트링가이트는 용출되었으며, 수산화인회석의 생성으로 인해 진밀도가 상승하였다. 흡수율의 증가에도 불구하고, 모르타르 시편의 압축강도 또한 증가하였는데, 이는 분사 및 침지처리과정에서 용출된 수산화칼슘 및 에트링가이트의 제거와 순환잔골재 표면에 존재하는 미세분말의 세척으로 인한 부착강도의 증가가 주요한 원인으로 파악되었다. 일인산 암모늄 수용액의 농도가 과다한 경우(침지: 15 % 이상, 분사 20 % 이상), 모르타르의 압축강도는 저하하는 현상을 보였는데, 이는 수화생성물의 과도한 용출에 의해 증가한 흡수율과 관련된 것으로 판단된다.

Predicting Model for Pore Structure of Concrete Including Interface Transition Zone between Aggregate and Cement Paste

  • Pang, Gi-Sung;Chae, Sung-Tae;Chang, Sung-Pil
    • International Journal of Concrete Structures and Materials
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    • 제3권2호
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    • pp.81-90
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    • 2009
  • This paper proposes a semi analytical model to describe the pore structure of concrete by a set of simple equations. The relationship between the porosity and the microstructure of concrete has been considered when constructing the analytical model. The microstructure includes the interface transition zone (ITZ) between aggregates and cement paste. The predicting model of porosity was developed with considering the ITZ for various mixing of mortar and concrete. The proposed model is validated by the rapid experimental programs. Although the proposed model is semi-analytical and relatively simple, this model could be reasonably utilized for the durability design and adapted for predicting the service life of concrete structures.