Distribution of fibers in SFRC segments for tunnel linings

Carmona, Sérgio; Molins, Climent; Aguado, Antonio; Mora, Felipe

doi:10.1016/j.tust.2015.10.040

Cited by 20 publications

(10 citation statements)

References 29 publications

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“…Politècnica de Catalunya (UPC) inBarcelona, Spain, and Universidad Federico Santa Maria (UTFSM) in Valparaiso, Chile. These experimental programs were reported inMolins et al (2008),Monsó (2011),Aire et al (2015) andCarmona (2016).According to the latter, seven different types of concrete were included in this research: two conventional concretes (C) with compressive strength of 30 MPa and 50 MPa and reinforced with 30 kg/m 3 and 50 kg/m 3 of fibers respectively; two self compacting concretes with normal and high compressive strength, designated as SCC -N and SCC-H respectively, both reinforced with two fiber amounts 20 kg/m 3 and 40 kg/m 3 ; a third self compacting concrete of normal strength (designated as M series) reinforced with 30 kg/m 3 of four different type of fibers with different length (lf) and diameter (df), and almost identical aspect ratio (λf = lf/df). Finally, a sprayed concrete designed to be used as lining in mining tunnels, designated as SH and reinforced with and 40 kg/m 3 of fibers.…”

mentioning

confidence: 76%

“…Due to its simplicity and greater knowledge of the response of the FRC subjected to the BCN test, supported by a large number of researches both at the experimental level (Carmona et al, 2013;Aire et al, 2015) and numerical (Pros et al, 2011;2012;Pujadas et al, 2013), the BCN test is progressively being used to evaluate the post-cracking behavior of FRC (Chao et al, 2012;Kim et al, 2015;Carmona et al, 2016). It has also been used as a control test for fiber-reinforced shotcrete in several large projects, such as the Lima Metro (Geocontrol, 2015), the Chuquicamata Subterránea project of the Codelco -Chile mining company , and linings for 22.5 km tunnel of Follo Line in Norway.…”

Section: Introductionmentioning

confidence: 99%

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Correlation between bending test and Barcelona tests to determine FRC properties

Carmona

Molins

Aguado

2018

Construction and Building Materials

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The use of fiber reinforced concretes (FRC) as a substitute for reinforcement meshes, particularly in the construction of tunnels, frequently faces quality control problems because the specifications and acceptability criteria are based on parameters obtained from the flexion test of standard EN-14651, which is very difficult to perform at works. Considering the advantages presented by the Barcelona test, in this paper, equivalences are established between both tests, which allow estimating the FRC toughness and residual strengths. The predictions of these properties obtained using the Barcelona tests results present a maximum difference of less than 20%.

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mentioning

confidence: 76%

Section: Introductionmentioning

confidence: 99%

Correlation between bending test and Barcelona tests to determine FRC properties

Carmona

Molins

Aguado

2018

Construction and Building Materials

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“…The addition of fibres in concrete develops the stress transfer mechanism by bridging cracks [ 9 ]. Due to good physical and mechanical parameters of SFRC it is applied for making various structural elements such as foundation slabs [ 10 ], bridge slabs [ 11 ], industrial floors [ 12 ], columns [ 13 , 14 ] or tunnel elements [ 15 , 16 , 17 , 18 ]. In SFRC production waste materials can also be applied [ 19 ] bearing in mind sustainable development of construction industry.…”

Section: Introductionmentioning

confidence: 99%

A Statistical Model of Fibre Distribution in a Steel Fibre Reinforced Concrete

Kobaka

2021

Materials

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The aim of the research was to create a model of steel fibre distribution in a Steel Fibre Reinforced Concrete space using statistical probability means. The model was created in order to better understand the behaviour of the composite under operating conditions. Four statistical distributions (Beta, Kumaraswamy, Three Parameter Beta and Generalised Transmuted Kumaraswamy) were examined to find the distribution that best described fibre settling phenomenon caused by manufacturing process conditions. In the next stage the chosen statistical distribution was adapted to create the model of steel fibre distribution in a Steel Fibre Reinforced Concrete space. The model took into account technological conditions such as vibrating time and properties such as consistency of the tested concrete. The model showed a good agreement with the real fibre distribution.

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“…Experimental studies on the mechanical properties of steel fiber-reinforced concrete (SFRC) linings and precast segments have shown that the randomness of fiber distribution manifests a good crack control capability [8][9][10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Mechanical Behavior and Its Influencing Factors on Engineered Cementitious Composite Linings

Ding

et al. 2019

Advances in Materials Science and Engineering

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A 1/5-scale model test was used to analyze and compare the mechanical responses of engineered cementitious composite (ECC) lining and traditional concrete lining under vertically concentrated loading. Test results indicate that the major failure mode of the lining cross section is controlled by tensile stress. ECC linings express better cracking control capability and deformation performance than the traditional concrete tunnel linings. On this basis, the effects of loading direction, material tensile properties, soil stiffness, and model size on the mechanical behavior of ECC and R/ECC linings were analyzed by numerical calculation. Parametric analysis shows that the failure modes of ECC and R/ECC linings along different load directions are caused by the loss of bearing capacity due to the formation of three plastic hinges. Lining damage under horizontal loading is more concentrated than those under vertical and oblique loading. Improving the tensile properties of ECC materials can help enhance the load capacity and deformability of linings. Soil stiffness obviously affects the postpeak deformation behavior of ECC linings, as shown by the sharp increase of the load-displacement curve with the increase of soil stiffness. The peak load and corresponding displacement of linings demonstrate nonlinear increase with the increase in model size.

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Distribution of fibers in SFRC segments for tunnel linings

Cited by 20 publications

References 29 publications

Correlation between bending test and Barcelona tests to determine FRC properties

Correlation between bending test and Barcelona tests to determine FRC properties

A Statistical Model of Fibre Distribution in a Steel Fibre Reinforced Concrete

Mechanical Behavior and Its Influencing Factors on Engineered Cementitious Composite Linings

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