• Title/Summary/Keyword: high-ductile concrete

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An Experimental Study on Mechanical Properties of Ductile Concrete with the Kinds of Aggregate (골재종류에 따른 고인성 콘크리트의 역학적 특성에 관한 실험적 연구)

  • Han Byung-chan;Yang Il-seung;Park Wan-shin;Lim Seung-chan;Morii Naoharu;Youn Hyun-do
    • Proceedings of the Korea Concrete Institute Conference
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    • 2005.05b
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    • pp.61-64
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    • 2005
  • Concrete is one of the principal materials for the structure and it is widely used all over the world, but it shows extremely brittle failure under bending and tensile load. Recently to improve such a poor property, Ductile Fiber Reinforced Cementitious Composites (DFRCC) have been developed, and it are defined by an ultimate strength higher than their first cracking strength and the formation of multiple cracking during the inelastic deformation process. This paper is to estimate experimentally the mechanical properties of ductile concrete with the kinds of used fine and coarse aggregate for purpose of development of high ductile concrete mixing coarse aggregate. As the results, ductile concrete mixed coarse aggregate showed the displacement-hardening behavior under bending load similar to DFRCC, and its compressive and bending performance varied according to the kinds of used coarse aggregate.

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Compressive Strength and Tensile Behavior of Ultra-High Performance Concrete and High-Ductile Cementless Composite (초고성능 콘크리트와 고연성 무시멘트 복합재료의 압축 및 인장성능)

  • Choi, Jeong-Il;Park, Se Eon;Lee, Bang Yeon
    • Journal of the Korea institute for structural maintenance and inspection
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    • v.21 no.3
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    • pp.69-75
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    • 2017
  • Ultra-high performance concrete and high ductile cementless composite are considered as promising construction materials because those exhibits higher performance in terms of high strength and high ductility. The purpose of this study is to investigate experimentally the compressive strength and tensile behavior of ultra-high performance concrete and high ductile cementless composite. A series of experiments including density, compressive strength, and uniaxial tension tests were performed. Test results showed that the compressive strength and tensile strength of alkali-activated slag based high ductile cementless composite were lower than those of ultra-high performance concrete. However, the tensile strain capacity and toughness of alkali-activated slag based high ductile cementless composite were higher than those of ultra-high performance concrete. And it was exhibited that a high ductility up to 7.89% can be attainable by incorporating polyethylene fiber into the alkali-activated slag based cementless paste.

Static and Fatigue Flexural Tests of Ductile High-performance Fiber Reinforced Cementitious Composites (고인성 섬유보강 콘크리트의 정적 및 피로 휨시험)

  • Shin, Kyung-Joon;Lee, Do-Keun;Lee, Kyoung-Chan;Kim, Sung-Il
    • Journal of the Korean Recycled Construction Resources Institute
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    • v.9 no.4
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    • pp.602-608
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    • 2021
  • Recently, research and development has been conducted to impart high performance and functionality to concrete materials by mixing various reinforcing materials into the matrix. Ductile fiber reinforced concrete using a large amount of fibers shows a distributed multiple cracking behavior, and various studies are being conducted on this material. However, research is focused on static behavioral analysis but studies on cyclic behaviors are not sufficient. In this study, beams were made of ductile fiber reinforced concrete with various fiber contents, and static and fatigue flexural tests were performed. As a result, the effect of fiber content on the flexural behavior was analyzed. Also, the applied load level and fatigue life relationship of ductile fiber reinforced concrete was proposed. Concrete with high ductile property could be achieved with a fiber content of 2%. When 0.5% fiber was more added, the maximum flexural strength was similar, but the flexural toughness is nearly doubled. On the other hand, there was no significant difference in the fatigue life of these two mixtures.

Assessment of Flexural Ductility in RC Beams with High-Strength Reinforcement (고장력 철근을 사용한 RC 보의 휨연성 평가)

  • 권순범;윤영수;이만섭;임철현
    • Proceedings of the Korea Concrete Institute Conference
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    • 2001.05a
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    • pp.897-902
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    • 2001
  • Recently, structure performance is maximized by using high strength concrete. In design of structure, concrete need combination with reinforcement, but use of common strength reinforcement make member complex bar placement, so high strength concrete members require increased strength reinforcement. If common strength reinforcement replaced by equal tension area of high strength reinforcement, reinforcement ratio increase and brittle failure of member may occur by material change. So, adequate upper limit of strength ratio is required to affirm ductile behavior in application of high strength reinforcement. In this study, ductility behavior was analysed by factor of reinforcement ratio, strength of concrete and reinforcement. The result indicate that ductile failure is shown under 0.35 $\rho_{b}$ in any reinforcement strength of same section and high strength concrete of 800kg/$cm^{2}$ used commonly is compatible with reinforcement of 5500kg/$cm^{2}$.

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Flexural Design and Ductile Capacity of Reinforced High Strength Concrete Beams (고강도 철근 콘크리트 보의 휨 설계 및 연성능력)

  • 신성우;유석형;안종문;이광수
    • Magazine of the Korea Concrete Institute
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    • v.8 no.6
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    • pp.141-149
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    • 1996
  • The reinforced high-strength-concrete beam subjected to flexure moment behaves more brittly than the moderate-strength-concrete beam reinforced with equal reinforcement ratio($\rho$/$\rho_b$). Test results show that when the concrete strength exceeds 830kg/$cm^2$, the maximum reinforcement ratio should be less than $0.6{\rho}_b$ for ductile behavior (${\rho}_b$=balanced steel ratio). The ratio of flexural strength between experimental results and analytical results with rectangular stress block decrease as the compressive strength of concrete increase. The shape of the compressive stress block distributed triangularly. because the ascending part of the stress-strain curve shows fairly linear response up to maximum stress in contrast to the nonlinear behavior of the medium and low strength specimens.

Wet-mix Shotcreting Application of High Ductile Fiber Reinforced Mortar Designed by Optimizing Mix Proportion

  • Kim Yun Yong;Kim Jeong Su;Kim Jin Keun;Ha Gee Joo
    • Proceedings of the Korea Concrete Institute Conference
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    • 2004.11a
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    • pp.581-584
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    • 2004
  • High ductile fiber reinforced mortar suitable for wet-mix shotcreting (sprayable ductile mortar) 10 the fresh state, while maintaining tensile strain-hardening behavior in the hardened state, has been developed based on micromechanics and workability control. In the development concept of sprayable ductile mortar, micromechanics is adopted to properly select the matrix, fiber, and interface properties to exhibit strain hardening and multiple cracking behaviors in the composites. Within the pre-determined micromechanical constraints, the workability is controlled by optimizing mix proportions. A series of spray tests show the excellent pumpability and sprayability of the sprayable ductile mortar. Subsequent direct tensile tests demonstrate that the tensile performance of sprayed mortar is comparable to that of cast mortar, for the same mix design.

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Shear Strength of Beam-Column eoints Using High-Strength Concrete (고강도콘크리트를 사용한 보-기둥 접합부의 전단강도)

  • 장극관;서대원
    • Journal of the Korea Concrete Institute
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    • v.12 no.2
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    • pp.53-62
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    • 2000
  • Under severe lateral loads, ductile moments-resisting reinforced concrete frames will be subjected to large loads and displacements. Thus, large deformation and shear stree are occurred at the beam-column joints which are the most critical region in ductile moments-resisting system. The purpose of this study was to investigate the shear strength of beam-column connection using high strength concrete. Four subassemblies were designed 2/3 scale of read structures and tested. The obtained results are as follows. 1) The transverse beams increase the shear resistance and ductility of joint, 2) The slab was contributed to increase of the flexural capacity of the beam, but was not contributed to increase the joint ductility under cyclic loads. 3) The shear stress factors. given by the ACI code would be modified in evaluating the shear strength of beam-column joints of frame which were constructed with high-strength concrete.

A Study on Flexural Behavior of R.C. Columns with the configuration of Lateral Ties (띠철근 기근 형태에 따른 철근콘크리트 기둥의 휨 거동 에 관한 연구)

  • 조세용;양근혁;이영호;정헌수
    • Journal of the Korea Concrete Institute
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    • v.12 no.1
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    • pp.53-60
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    • 2000
  • The objective of this study is to investigate the flexural behavior of reinforced concrete columns confined by lateral ties. This test was carried on the twelve reinforced concrete columns subjected to lateral and constant axial loads. The main experimental variables are concrete strength, the configuration of lateral ties, and the amount of lateral ties. Test results indicated that the steel configuration in column sections plays an important role in column behavior, and a proper configuration of lateral ties can obtain more ductile by the reduction of the space of lateral ties. Also, this experiment show that the utlization of high-strength concrete in columns properly designed on ACI Code takes less ductile. Therefore, we can conclude that the design of high-strength concrete columns under high axial loads requires more lateral ties than ACI Code.

Uniaxial tension behavior of high ductile fiber reinforced mortar designed based on micromechanics (마이크로 역학에 의하여 설계된 고인성 섬유복합 모르타르의 1축인장 거동)

  • Kim, Yun-Yon;Kim, Jeong-Su;Kim, Hee-Sin;Kim, Jin-Keun;Ha, Gee-Joo
    • Proceedings of the Korea Concrete Institute Conference
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    • 2004.05a
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    • pp.284-287
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    • 2004
  • A high ductile fiber reinforced mortar has been developed by employing micromechanics-based design procedure. Micromechanical analysis was initially performed to properly select water-cement ratio, and then optimal mixture proportion was determined based on workability considerations, including desirable fiber dispersion without segregation. Subsequent direct tensile tests revealed that the fiber reinforced mortar exhibited high ductile uniaxial tension property, represented by $1.8\%$ strain capacity, which is around 100 times the strain capacity of normal concrete.

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Improvement of Shear Performance for High Ductile Fiber-Reinforced Mortar Slab-Column Connection in Flat Plate Structural System (고인성 복합섬유 모르타르를 이용한 플랫 플레이트 구조 슬래브-기둥 접합부의 전단성능 개선)

  • Ha Gee Joo;Kim Yun Yong;Shin Jong Hak;Yang Seung Hyeok;Hong Kun Ho;Kim Joung Su
    • Proceedings of the Korea Concrete Institute Conference
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    • 2005.11a
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    • pp.145-148
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    • 2005
  • Recently the construction of high-rise reinforced concrete building is progressively increased as the social demands. It is significantly important factors such as economy, the safety of structure, and the flexibility of internal space. Therefore new structural system is also required to be attained the reduction of story height, the flexibility and efficient use of space. The most suitable structural system is with the economy and flexibility, flat plate slab system in high-rise reinforced concrete building. In this research, it was focused in the improvement of shear performance in the flat plate system using high ductile fiber reinforced mortar. It was evaluated the shear performance in the critical region of slab-column connection. The flat plate system, designed by the high performance and safety, was developed as a new technique in the application of high-rise R/C building.

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