• Title/Summary/Keyword: Ultra-high Strength Concrete

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An Assessment of Bonding Shear Performance of Ultra-high-performance Concrete Regarding Interface Treatment (표면처리방법에 따른 초고성능 콘크리트의 전단부착성능 평가 연구)

  • Jang, Hyun-O;Park, Jin-Ho;Lee, Han-Seung
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2016.10a
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    • pp.81-82
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    • 2016
  • The present study aims to derive optimal interface treatment conditions for emulating a monolithic construction. The joints in this construction are formed through the bonding shear evaluation method during the placement of ultra-high-performance concrete (UHPC) and normal strength concrete (NSC). The evaluation items include push-off tests for homogeneous UHPC + UHPC and heterogeneous NSC + UHPC. The experimental samples comprised a monolithic placement as the baseline, two levels for the separated placement according to the compression strength of concrete, and five levels for the interface treatment. The increase in the number of grooves and their cross-sectional areas only slightly influenced the bonding shear performance. The optimal interface treatment method for the homogeneous UHPC + UHPC construction grooves was at least 30mm. The heterogeneous NSC + UHPC construction should utilize waterjet roughening to expose the aggregate for the increased roughness.

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Review of 150MPa grade Ultra-High Strength Concrete which is Hybrid Fiber mixture (150MPa급 초고강도 콘크리트의 섬유 복합 혼입에 따른 휨강도 검토)

  • Kim, Sung-Yong;Ha, Jung-Soo;Kim, Hak-Young;Kim, Han-Sik;Lim, Nam-Gi;Jeong, Sang-Jin
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2013.11a
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    • pp.36-37
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    • 2013
  • It is the study on the mechanical properties of the material when mixing hybrid fiber as steel and synthetic fiber to improve fire resistance and toughness of concrete. Finally, The purpose is to identify of mechanical properties of Hybrid Fiber-Reinforced Ultra High Strength Concrete such as flexural strength.

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Evaluation of mechanical properties for high strength and ultrahigh strength concretes

  • Murthy, A. Ramachandra;Iyer, Nagesh R.;Prasad, B.K. Raghu
    • Advances in concrete construction
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    • v.1 no.4
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    • pp.341-358
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    • 2013
  • Due to fast growth in urbanisation, a highly developed infrastructure is essential for economic growth and prosperity. One of the major problems is to preserve, maintain, and retrofit these structures. To meet the requirements of construction industry, the basic information on all the mechanical properties of various concretes is essential. This paper presents the details of development of various concretes, namely, normal strength concrete (around 50 MPa), high strength concrete (around 85 MPa) and ultra high strength concrete (UHSC) (around 120 MPa) including their mechanical properties. The various mechanical properties such as compressive strength, split tensile strength, modulus of elasticity, fracture energy and tensile stress vs crack width have been obtained from the respective test results. It is observed from the studies that a higher value of compressive strength, split tensile strength and fracture energy is achieved in the case of UHSC, which can be attributed to the contribution at different scales viz., at the meso scale due to the fibers and at the micro scale due to the close packing of grains which is on account of good grading of the particles. Micro structure of UHSC mix has been examined for various magnifications to identify the pores if any present in the mix. Brief note on characteristic length and brittleness number has been given.

Flowability and Strength Properties on Ultra High Performance Concrete Pre-mixed Binders with Fiber (섬유를 혼입한 초고성능콘크리트용 프리믹스결합재의 유동성 및 강도 특성)

  • Koo, Kyung-Mo;Hwang, In-Sung;Kwon, O-Bong
    • Proceedings of the Korean Institute of Building Construction Conference
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    • 2017.05a
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    • pp.204-205
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    • 2017
  • In this study, flowability and strength on ultra high performance concrete(UHPC) pre-mixed binders with fiber was investigated. The flow of UHPC with pre-mixed binders was higher than that of seperate mixing conditions. The UHPC using PVA fiber with high specific surface area showed a low flow compared to steel fiber. An pre-mixing method led to improved strength of UHPC and low deviation of specimens due to dispersion effect of each materials.

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A Study on the Development of a Ultra-Strength Precast Concrete Bearing Concrete Bearing Plate (초고강도 ($\acute{f}_{C91}$= 950kg/$\textrm{cm}^2$) P.C Bearing Plate 개발에 관한 연구)

  • 소현창;정병욱;김재우;문성규
    • Proceedings of the Korea Concrete Institute Conference
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    • 1997.04a
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    • pp.643-648
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    • 1997
  • P.C Bearing Plate method, corresponding to the existing steel plate build-up method, is developed by the very first in domestic and is applied to the foundation in the HYUNDAI building at Kang-Nam. P. C Bearing Plate produced in ourself P.C plant can stand against vertical load of 7,000ton obtaining allowable force of soil. It is possible to minmize cost expediting, do site assembling and omit unnecessary excavation work by plant prefabrication of foundation member. The purpose of this paper is to study the optimum mixing design of Ultra-high strength concrete ($\acute{f}_{C91}$= 950kg/$\textrm{cm}^2$), crack control through measuring the heat of hydration, mock up test for the optimum curing method. As mentioned above, developing the Ultra-high strength Precast Concrete Bearing Plate set up successfully in the site foundation work of the HYUNDAI Building at Kang-Nam.

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An Experimental Study on Mechanical Properties of Ultra-High Strength Powder Concrete (압축강도 300MPa 이상의 초고강도 분체콘크리트 개발을 위한 실험적 연구)

  • Jo, Byung-Wan;Yoon, Kwang-Won;Park, Jung-Hoon;Kim, Heoun
    • Journal of the Korea Concrete Institute
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    • v.22 no.3
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    • pp.287-295
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    • 2010
  • In this study, ordinary Portland cement was used and the air void was minimized by using minute quartz as the filler. In addition, steel fibers were used to mitigate the brittle failure problem associated with high strength concrete. This study is in progress to make an Ultra-high strength powdered concrete (UHSPC) which has compressive strength over 300 MPa. To increase the strength of concrete, we have compared and analyzed the compressive strengths of the concretes with different mix proportions and curing conditions by selecting quartz sand, dolomite, bauxite, ferro silicon which have diameters less than 0.6 mm and can increase the bond strength of the transition zone. Ultra-high strength powdered concrete, which is different from conventional concrete, is highly influenced by the materials in the mix. In the study, the highest compressive strength of the powdered concrete was obtained when it is prepared with ferro silicon, followed in order by Bauxite, Dolomite, and Quartz sand. The amount of ferro silicon, when the highest strength was obtained, was 110%, of the weight of the cement. SEM analysis of the UHSPC showed that significant formation of C-S-H and Tobermorite due to high temperature and pressure curing. Production of Ultrahigh strength powdered concrete which has 28-day compressive strength upto 341MPa has been successfully achieved by the following factors; steel fiber reinforcement, fine particled aggregates, and the filling powder to minimize the void space, and the reactive materials.

Constitutive property behavior of an ultra-high-performance concrete with and without steel fibers

  • Williams, E.M.;Graham, S.S.;Akers, S.A.;Reed, P.A.;Rushing, T.S.
    • Computers and Concrete
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    • v.7 no.2
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    • pp.191-202
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    • 2010
  • A laboratory investigation was conducted to characterize the constitutive property behavior of Cor-Tuf, an ultra-high-performance composite concrete. Mechanical property tests (hydrostatic compression, unconfined compression (UC), triaxial compression (TXC), unconfined direct pull (DP), uniaxial strain, and uniaxial-strain-load/constant-volumetric-strain tests) were performed on specimens prepared from concrete mixtures with and without steel fibers. From the UC and TXC test results, compression failure surfaces were developed for both sets of specimens. Both failure surfaces exhibited a continuous increase in maximum principal stress difference with increasing confining stress. The DP tests results determined the unconfined tensile strengths of the two mixtures. The tensile strength of each mixture was less than the generally assumed tensile strength for conventional strength concrete, which is 10 percent of the unconfined compressive strength. Both concretes behaved similarly, but Cor-Tuf with steel fibers exhibited slightly greater strength with increased confining pressure, and Cor-Tuf without steel fibers displayed slightly greater compressibility.

A Study the Development of Ultra High Performance Concrete using Liquid Metal Fiber (Liquid Metal Fiber를 이용한 초고성능콘크리트의 개발에 관한 기초연구)

  • Ko, Kwan-Ho;Kwak, Min-Saeg;Ahn, Jung-Hyun;Kim, Wha-Jung
    • Proceedings of the Korea Concrete Institute Conference
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    • 2009.05a
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    • pp.241-242
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    • 2009
  • This study showsUltra high performance concrete with steel fiber to obtain the high ductillity. the results of high strength concrete specimences with existing steel fiber and liquid metal fiber were compared with them of plain high strength mortal through bending test. The result that the ductility of high strength concrete with liquid metal fiber was superior to that with bundrex steel fiber was found through toughness test mathod like ASTM C 1018, JSCE-SF4.

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A Study on the Influence of Cementitious Material Type on the Compressive Strength of Ultra-High Strength Concrete (고강도콘크리트의 강도특성에 미치는 혼화재 종류의 영향에 관한 연구)

  • Choi, Se-Jin;Kang, Won-Seok;Park, Chang-Soo;Lee, Seong-Yeon;Lee, Sang-Soo
    • Proceedings of the Korea Concrete Institute Conference
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    • 2006.05b
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    • pp.45-48
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    • 2006
  • Generally, the strength of concrete depends on factors of materials, mix proportions, compaction, manufacturing methods and curing and so on. This is an experimental study to compare and analyze the influence of cementitious material type on the compressive strength of ultra high strength concrete. For this purpose, the mix proportions of concrete according to the type of cementitious materials(Fly ash, blast furnace slag, silica fume) and W/B(31.5, 27.5%) was selected. And then air content, slump-flow, O-lot, compressive strength test were performed.

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