• 제목/요약/키워드: fiber self-compacting concrete

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Performance of concrete structures with a combination of normal SCC and fiber SCC

  • Farhang, Kianoosh;Fathi, Hamoon
    • Computers and Concrete
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    • 제20권6호
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    • pp.655-661
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    • 2017
  • Fiber reinforced concretes exhibit higher tensile strength depending on the percent and type of the fiber used. These concretes are used to reduce cracks and improve concrete behavior. The use of these fibers increases the production costs and reduces the compressive strength to a certain extent. Therefore, the use of fiber reinforced concrete in regions where higher tensile strength is required can cut costs and improve the overall structural strength. The behavior of fiber reinforced concrete and normal concrete adjacent to each other was investigated in the present study. The concrete used was self-compacting and did not require vibration. The samples had 0, 1, 2 and 4 wt% polypropylene fibers. 15 cm sample cubes were subjected to uniaxial loads to investigate their compressive strength. Fiber Self-Compacting Concrete was poured in the mold up to 0, 30, 50, 70 and 100 percent of the mold height, and then Self-Compacting Concrete without fiber was added to the empty section of that mold. In order to investigate concrete behavior under bending moment, concrete beam samples with similar conditions were prepared and subjected to the three-point bending flexural test. The results revealed that normal Self-Compacting Concrete and Fiber Self-Compacting Concrete may be used in adjacent to each other in structures and structural members. Moreover, no separation was observed at the interface of Fiber Self-Compacting Concrete and Self-Compacting Concrete, either in the cubic samples under compression or in the concrete beams under bending moment.

Self compacting reinforced concrete beams strengthened with natural fiber under cyclic loading

  • Prasad, M.L.V;saha, Prasenjit;Kumar, P.R.
    • Computers and Concrete
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    • 제17권5호
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    • pp.597-612
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    • 2016
  • The present work focuses on the use of coconut fiber in self compacting concrete. Self-Compacting Concrete (SCC) is a highly flowable, stable concrete which flows readily into place, filling formwork without any consolidation and without undergoing any significant segregation. Use of fibers in SCC bridge the cracks and enhance the performance of concrete by not allowing cracks to propagate. They contribute to an increased energy absorption compared to plain concrete. Coconut fiber has the highest toughness among all natural fibers. It is known that structures in the seismic prone areas are always under the influence of cyclic loading. To justify the importance of strengthening SCC beams with coir fiber, the present work has been undertaken. A comparison is made between cyclic and static loading of coconut fiber reinforced self compacting concrete (FRSCC) members. Using the test data obtained from the experiment, hysteresis loops were drawn and comparison of envelope curve, energy dissipation, stiffness degradation were made and important conclusions were draw to justify the use of coconut fiber in SCC.

Cracking of Fiber-Reinforced Self-Compacting Concrete due to Restrained Shrinkage

  • Kwon, Seung-Hee;Ferron, Raissa P.;Akkaya, Yilmaz;Shah, Surendra P.
    • International Journal of Concrete Structures and Materials
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    • 제1권1호
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    • pp.3-9
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    • 2007
  • Fiber-reinforced self-compacting concrete (FRSCC) is a new type of concrete mix that can mitigate two opposing weaknesses: poor workability in fiber-reinforced concrete and cracking resistance in plain SCC concrete. This study focused on early-age cracking of FRSCC due to restrained drying shrinkage, one of the most common causes of cracking. In order to investigate the effect of fiber on shrinkage cracking of FRSCC, ring shrinkage tests were performed for polypropylene and steel fiber-reinforced SCC. In addition, finite element analyses for those specimens were carried out considering drying shrinkage based on moisture diffusion, creep, cracking resistance of concrete, and the effect of fiber. The analysis results were verified via a comparison between the measured and calculated crack width. From the test and analysis results, the effectiveness of fiber with respect to reducing cracking was confirmed and some salient features on the shrinkage cracking of FRSCC were obtained.

Modeling the polypropylene fiber effect on compressive strength of self-compacting concrete

  • Nazarpour, Mehdi;Asl, Ali Foroughi
    • Computers and Concrete
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    • 제17권3호
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    • pp.323-336
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    • 2016
  • Although the self-compacting concrete (SCC) offers several practical and economic benefits and quality improvement in concrete constructions, in comparison with conventionally vibrated concretes confronts with autogenously chemical and drying shrinkage which causes the formation of different cracks and creates different problems in concrete structures. Using different fibers in the mix design and implementation of fibrous concrete, the problem can be solved by connecting cracks and micro cracks together and postponing the propagation of them. In this study an experimental investigation using response surface methodology (RSM) based on full factorial design has been undertaken in order to model and evaluate the polypropylene fiber effect on the fibrous self-compacting concrete and curing time, fiber percentage and fiber amount have been considered as input variables. Compressive strength has been measured and calculated as the output response to achieve a mathematical relationship between input variables. To evaluate the proposed model analysis of variance at a confidence level of 95% has been applied and finally optimum compressive strength predicted. After analyzing the data, it was found that the presented mathematical model is in very good agreement with experimental results. The overall results of the experiments confirm the validity of the proposed model and this model can be used to predict the compressive strength of fibrous self-compacting concrete.

Stress-strain relationships for steel fiber reinforced self-compacting concrete

  • Aslani, Farhad;Natoori, Mehrnaz
    • Structural Engineering and Mechanics
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    • 제46권2호
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    • pp.295-322
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    • 2013
  • Steel fiber reinforced self-compacting concrete (SFRSCC) is a relatively new composite material which congregates the benefits of self-compacting concrete (SCC) technology with the profits derived from the fiber addition to a brittle cementitious matrix. Steel fibers improve many of the properties of SCC elements including tensile strength, toughness, energy absorption capacity and fracture toughness. Modification in the mix design of SCC may have a significant influence on the SFRSCC mechanical properties. Therefore, it is vital to investigate whether all of the assumed hypotheses for steel fiber reinforced concrete (SFRC) are also valid for SFRSCC structures. Although available research regarding the influence of steel fibers on the properties of SFRSCC is limited, this paper investigates material's mechanical properties. The present study includes: a) evaluation and comparison of the current analytical models used for estimating the mechanical properties of SFRSCC and SFRC, b) proposing new relationships for SFRSCC mixtures mechanical properties. The investigated mechanical properties are based on the available experimental results and include: compressive strength, modulus of elasticity, strain at peak compressive strength, tensile strength, and compressive and tensile stress-strain curves.

Size effect on strength of Fiber-Reinforced Self-Compacting Concrete (SCC) after exposure to high temperatures

  • Gulsan, M. Eren;Abdulhaleem, Khamees N.;Kurtoglu, Ahmet E.;Cevik, Abdulkadir
    • Computers and Concrete
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    • 제21권6호
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    • pp.681-695
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    • 2018
  • This pioneer study investigates the size effect on the compressive and tensile strengths of fiber-reinforced self-compacting concrete (FR-SCC) with different specimens, before and after exposure to elevated temperatures. 432 self-compacting concrete (SCC) specimens with two concrete grades (50 and 80MPa) and three steel fiber ratios (0%, 0.5% and 1%) were prepared and tested. Moreover, based on the experimental results, new formulations were proposed to predict the residual strengths for different specimens. A parametric study was also carried out to investigate the accuracy of proposed formulations. Residual strength results showed that the cylinder specimen with dimensions of $100{\times}200mm$ was the most affected, while the cube with a size of 100 mm maintained a constant difference with the standard cylinder ($150{\times}300mm$). Temperature effect on the cube specimen (150 mm) was the least in comparison to other specimen sizes and types. In general, provision of steel fibers in SCC mixtures resulted in a reduction in temperature effect on the variance of a conversion factor. Parametric study results confirm that the proposed numerical models are safe to be used for all types of SCC specimens.

강섬유를 보강한 자기충전 콘크리트의 휨 성능 평가를 위한 실험 연구 (An Experimental Study to Evaluate the Flexural Performance of Steel Fiber-Reinforced Self-Compacting Concrete)

  • 박연동
    • 한국구조물진단유지관리공학회 논문집
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    • 제13권6호통권58호
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    • pp.166-175
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    • 2009
  • 강섬유보강 자기충전 콘크리트의 휨 성능을 평가하기 위하여 실험을 중심으로 한 연구를 수행하였다. 보 시험체를 만들기 위하여 3종류의 강섬유보강 콘크리트로 7개의 슬래브를 제작하였으며, 일정 기간 양생 후 다이아몬드 날이 달린 절단기로 슬래브를 절단하여 1개의 슬래브 당 5개의 보 시험체를 획득하였다. 각 보 시험체의 하중-처짐 곡선은 변위조절방식을 사용하여 구하였다. 실험 결과, 자기충전 콘크리트는 휨강도 및 연성, 인성지수 등 휨 성능을 평가하는 모든 부분에서 일반 콘크리트보다 양호한 성능을 보여주었다. 결과적으로 다짐이 필요없는 강섬유보강 자기충전 콘크리트는 강섬유보강 콘크리트의 가장 큰 단점인 시공성 저하 문제를 획기적으로 개선할 뿐만 아니라 역학적 성질도 양호하여 향후 토목 건축 분야에서 폭넓게 활용될 수 있을 것으로 생각된다.

강섬유 혼입에 따른 고유동 자기충전 콘크리트의 유동특성 (Flowing Characteristic of High Flowing Self-Compacting Concrete with mixing Steel Fiber)

  • 최연왕;최욱;김기범;정재권;안태호;엄주한
    • 한국콘크리트학회:학술대회논문집
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    • 한국콘크리트학회 2008년도 춘계 학술발표회 제20권1호
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    • pp.461-464
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    • 2008
  • 본 연구에서는 직경 및 길이를 변화시킨 강섬유를 혼입한 고유동 자기충전 콘크리트의 유동특성을 알아보기 위하여 충전성 및 간극통과성 실험을 실시하였다. 유동성 평가를 실시한 결과 강섬유의 직경 및 길이가 증가할수록 유동성능은 감소하지만 JSCE 2등급 병용계 고유동 콘크리트의 기준에 만족하였으며, ASTM C 1621에서 제시한 통과 성능을 만족하였다. 본 연구를 통하여 강섬유를 혼입한 고유동 자기충전 콘크리트의 현장 적용이 가능할 것으로 판단된다.

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Vibration analysis of steel fiber reinforced self-compacting concrete beam on elastic foundation

  • Ozdemir, Mahmut Tunahan;Kobya, Veysel;Yayli, Mustafa Ozgur;Mardani-Aghabaglou, Ali
    • Computers and Concrete
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    • 제27권2호
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    • pp.85-97
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    • 2021
  • In this study, the effect of steel fiber utilization, boundary conditions, different beam cross-section, and length parameter are investigated on the free vibration behavior of fiber reinforced self-compacting concrete beam on elastic foundation. In the analysis of the beam model recommended by Euler-Bernoulli, a method utilizing Stokes transformations and Fourier Sine series were used. For this purpose, in addition to the control beam containing no fiber, three SCC beam elements were prepared by utilization of steel fiber as 0.6% by volume. The time-dependent fresh properties and some mechanical properties of self-compacting concrete mixtures were investigated. In the modelled beam, four different beam specimens produced with 0.6% by volume of steel fiber reinforced and pure (containing no fiber) SCC were analyzed depending on different boundary conditions, different beam cross-sections, and lengths. For this aim, the effect of elasticity of the foundation, cross-sectional dimensions, beam length, boundary conditions, and steel fiber on natural frequency and frequency parameters were investigated. As a result, it was observed that there is a noticeable effect of fiber reinforcement on the dynamic behavior of the modelled beam.

Experimental analysis and modeling of steel fiber reinforced SCC using central composite design

  • Kandasamy, S.;Akila, P.
    • Computers and Concrete
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    • 제15권2호
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    • pp.215-229
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    • 2015
  • The emerging technology of self compacting concrete, fiber reinforcement together reduces vibration and substitute conventional reinforcement which help in improving the economic efficiency of the construction. The objective of this work is to find the regression model to determine the response surface of mix proportioning Steel Fiber Reinforced Self Compacting Concrete (SFSCC) using statistical investigation. A total of 30 mixtures were designed and analyzed based on Design of Experiment (DOE). The fresh properties of SCC and mechanical properties of concrete were studied using Response Surface Methodology (RSM). The results were analyzed by limited proportion of fly ash, fiber, volume combination ratio of two steel fibers with aspect ratio of 50/35: 60/30 and super plasticizer (SP) dosage. The center composite designs (CCD) have selected to produce the response in quadratic equation. The model responses included in the primary stage were flowing ability, filling ability, passing ability and segregation index whereas in harden stage of concrete, compressive strength, split tensile strength and flexural strength at 28 days were tested. In this paper, the regression model and the response surface plots have been discussed, and optimal results were found for all the responses.