Bond strength and development length of steel bar in unconfined self-consolidating concrete

There exist the problems such as low bond strength and bad durability in the ordinary grouting slurry of the ground anchor system at present. The high-performance grouting mediums RPC (Reactive Powder Concrete) and DSP (Densified Systems containing homogeneously arranged ultrafine Particles) would become the potential replacement of grouting medium in ground anchor resulting from their high compressive strength, durability and toughness. Based on a series of pull-out tests on ground anchors with different high-performance grouting medium of RPC and DSP , different bond length in the construction field, the bond performance on the interfaces between anchor bolt (deformed steel bar) and grouted medium as well as between grouted medium and rock mass was studied. The results indicate that the interfacial bond strength between RPC or DSP and deformed steel bolt ranges within 23-31Mpa, far greater than that (about 2-3MPa) between the ordinary cementitious grout and deformed steel bar. Even though the interfacial bond strength between the grouted medium and rock mass of limestone was not obtained in the test since the failure mode was pull-out of those steel bar rather than the interface shear failure between grouted medium and rock mass, the bond stress on the interface reached 6.2-8.38 MPa, also far greater than the bond strength (about 0.1-3MPa) between the ordinary cementitious slurry and rocks.

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Experimental study on the effect of concrete strength and corrosion level on bond between steel bar and concrete

Transport and Communication Science Journal ◽

10.47869/tcsj.72.4.9 ◽

2021 ◽

Vol 72 (4) ◽

pp. 498-509

Author(s):

Vuong Doan Dinh Thien ◽

Hung Nguyen Thanh ◽

Hung Nguyen Dinh

Keyword(s):

Compressive Strength ◽

Bond Strength ◽

Concrete Strength ◽

Concrete Block ◽

Bond Stress ◽

Concrete Compressive Strength ◽

Pull Out ◽

Steel Bar ◽

Stress Degradation ◽

Slip Displacement

Corrosion of the steel reinforcement bars reduces the area of the steel bar and the bond stress between the steel bars and around concrete that decreases the capacity of concrete structures. In this study, the bond stress between steel bar with a diameter of 12mm and concrete was examined with the effect of different corrosion levels and different concrete grades. A steel bar was inserted in a concrete block with a size of 20×20×20cm. The compressive strength of concrete was 25.6MPa, 35.1MPa, and 44.1MPa. These specimens were soaked into solution NaCl 3.5% to accelerate the corrosion process with different corrosion levels in the length of 60mm. The pull-out test was conducted. Results showed that the bond strength of the corroded steel bar was higher than that predicted from CEB-FIP. Slip displacement and the range of slip displacement at the bond strength were reduced when the concrete compressive strength was increased. The rate of bond stress degradation occurred faster with the increment of the corrosion level when the concrete compressive strength was increased.

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Development length and bond strength equations for FRP bars embedded in concrete

Composite Structures ◽

10.1016/j.compstruct.2020.112662 ◽

2020 ◽

Vol 251 ◽

pp. 112662

Author(s):

Bogachan Basaran ◽

Ilker Kalkan

Keyword(s):

Bond Strength ◽

Development Length ◽

Frp Bars

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Development length of prestressing strand in self-consolidating concrete vs. conventional concrete: Experimental study

Journal of Building Engineering ◽

10.1016/j.jobe.2020.101218 ◽

2020 ◽

Vol 29 ◽

pp. 101218

Author(s):

Mahdi Arezoumandi ◽

Krista B. Looney ◽

Jeffery S. Volz

Keyword(s):

Experimental Study ◽

Development Length ◽

Conventional Concrete ◽

Self Consolidating Concrete ◽

Prestressing Strand

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Development length of prestressing strands cast in lightweight self-consolidating concrete

Engineering Structures ◽

10.1016/j.engstruct.2020.111393 ◽

2021 ◽

Vol 226 ◽

pp. 111393

Author(s):

Royce W. Floyd ◽

Jared Bymaster ◽

Canh N. Dang ◽

W. Micah Hale

Keyword(s):

Development Length ◽

Self Consolidating Concrete ◽

Prestressing Strands

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Bond Properties of Plain Steel Bar in Concrete with Machine-Made Sand

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.438-439.20 ◽

2013 ◽

Vol 438-439 ◽

pp. 20-24

Author(s):

Feng Lan Li ◽

Ke Fei Yu ◽

Xin Xin Ding ◽

Chang Ming Li

Keyword(s):

Bond Strength ◽

Experimental Studies ◽

Bond Stress ◽

Test Method ◽

Bond Properties ◽

Bond Slip ◽

Ordinary Concrete ◽

Strength Grade ◽

Pull Out ◽

Steel Bar

To meet the requirement of machine-made sand application in concrete structures, it is necessary to understand the bond properties of steel bar with machine-made sand concrete (MSC). Therefore, the experimental studies were carried out on the bond of plain steel bar with MSC by the central pull-out test method. Three specimens were cast as one group, 6 groups were tested considering the changes of strength grade of MSC and ordinary concrete. The bond-slip curves were measured and analyzed. The results show that the bond slip begins at the tensile side and transfers gradually to the free end before the entire slip turns up along the interface of plain steel bar and surrounded concrete, the largest average bond stress, i. e. the bond strength of plain steel bar corresponds to the initial entire slip of plain steel bar. With the increasing strength grade of MSC and ordinary concrete, the difference of slip at tensile side and free end becomes greater. Comparing that only appears in ordinary concrete with higher strength, the larger slips turn up while the bond stress reaches the largest for the plain steel bar in MSC. Larger scatter of bond strength is between specimens in the same group. Some plain steel bars yields with the beginning of entire slip along the interface.

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