experimental studies on glass fiber concrete

Experimental Studies On Glass Fiber Concrete

an experimental study of the cooling of a thin glass fiber,1.3 the present experiments in present study, a system was set up to measure the fiber glass temperature distribution for different drawing speeds and different fiber diameters. the fibers were produced directly from molten glass in a range of sizes characteristic of manufacturing practice..experimental study on glass fibre concrete – ijert,in recent times, a glass fiber has also become available, which are free from corrosion problem associated with steel fibers. the present paper outlines the experimental investigation conducts on the use of glass fibers with structural concrete, cem-fill anti crack, high dispersion, alkali resistance glass fiber of diameter 14 micron, having an aspect ratio 857 was employed in percentages, varying from 0.33 to 1 percentage by weight in concrete.

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  • Experimental Study on Glass Fibre Reinforced Concrete with

    Experimental Study On Glass Fibre Reinforced Concrete With

    experimental program involves the study of flexural behavior of glass fibre reinforced concrete beam with copper slag as a partial replacement of fine aggregate. the parameters of the study included by replacing the fine aggregate by copper slag with 50%, 60%, 70% and by varying the volume fraction of glass fibre from 0 to 0.1% with an increment of 0.025%. the grade of concrete is m35. the specimens

  • An Experimental Study On Glass Fibre Reinforced Concrete

    An Experimental Study On Glass Fibre Reinforced Concrete

    due to the glass fibre reinforced concrete the glass fibre easily surrounded to the cementitious medium. the study work is focused on strength and durability characteristics of gfrc. as per is 10262-2009 designed by m40 grade of concrete and con plast as a super plasticizer and water cement

  • Vol. 3, Issue 3, March 2014 Experimental Study on Glass

    Vol. 3, Issue 3, March 2014 Experimental Study On Glass

    glass fibers of 12mm cut length and diameter 0.0125mm were used. the workability of glass fiber reinforced concrete mixtures was maintained by adjusting the dosage of super plasticizer admixture to offset the possible reduction in slump. for each series of beams, three cubes (150x150x150) mm and three cylinders (150mm diameter, 300mm high)

  • Experimental Study on Behavior of Steel and Glass Fiber

    Experimental Study On Behavior Of Steel And Glass Fiber

    experimental study on behavior of steel and glass fiber reinforced concrete composites . kavita s kene, vikrant s vairagade and satish sathawane. abstract--- concrete is most widely used construction material in the world. fiber reinforced concrete (frc) is a concrete in which small and discontinuous fibers are dispersed uniformly.

  • An Experimental Study on the Properties of Glass Fibre

    An Experimental Study On The Properties Of Glass Fibre

    an experimental study on the properties of glass fibre reinforced and ground granulated blast furnace slag concrete author: kumar shantveerayya, vikas nikkam created date: 8/10/2018 8:55:07 am

  • Mechanical properties and microstructure of glass fiber

    Mechanical Properties And Microstructure Of Glass Fiber

    abstract. this paper presents the results of a comprehensive experimental work investigating the effect of glass fiber (gf) and polypropylene fiber (ppf) on the mechanical and microstructural properties of concrete as a function of the water/binder ratio and fiber content.



    using frc is experimentally tested. the fiber used are steel and glass fibers in various volume fraction the main reason for adding steel fiber to concrete matrix is to improve the post cracking response of the concrete i.e. to improve its energy absorption capacity and apparent ductility and to provide a crack resistance and crack control and addition of glass fiber for bridging the micro-cracks are suggested as

  • (PDF) An experimental study of synthetic fibre reinforced

    (PDF) An Experimental Study Of Synthetic Fibre Reinforced

    the study aims to analyze resin concrete (rc) bond behavior based on an isophthalic polyester resin, reinforced with nonmetallic rebars and is formed by pultruded glass fiber-reinforced polymer

  • Glass Fiber: An Experimental Study - MDPI

    Glass Fiber: An Experimental Study - MDPI

    non-modified concrete, glass fiber modified concrete showed better results in mechanical performance and properties as reported by sanjeev and sai nitesh [42]. the increase in compressive, split tensile, and flexural strength in combination with decrease in slump fall were noticed.

  • IJETT - Experimental Study on Properties of Glass Fibre

    IJETT - Experimental Study On Properties Of Glass Fibre

    in the present study alkali resistant glass fibres were used in the concrete mixes. a total of 8 mixes were prepared by varying the percentages of glass fibres and grade of concrete mixes. based on the laboratory results the compressive and tensile strength was reported to increase up to 26.19% and 25.4%.

  • Experimental Study on Glass Fiber Reinforced Concrete

    Experimental Study On Glass Fiber Reinforced Concrete

    experimental study on glass fiber reinforced concrete moderate deep beam abstract in this study, the result of glass fiber reinforced moderate deep beam with and without stirrups have been presented.

  • Experimental Study on Concrete-Filled Glass Fiber

    Experimental Study On Concrete-Filled Glass Fiber

    abstract: the concrete-filled glass fiber reinforced gypsum wall panel is a kind of panel that the inside cavums of the glass fiber hollow gypsum panel are filled with concrete, which can be used as the bearing wall of a building.

  • Experimental Study on Compressive Strength of Glass Fibre

    Experimental Study On Compressive Strength Of Glass Fibre

    in thefirst part of experimental investigation, the glass fibre has been used to study the effect on compressive strength on m15, m20 amp m25 grade of concrete for different % of glass fibreie., 0%,3%, 5%, 7% by weight of aggregates. and in todayrsquos world the main emphasis is on green and sustainable development.

  • Experimental Study on Deformation and ... - concrete.org

    Experimental Study On Deformation And ... - Concrete.org

    title: experimental study on deformation and failure of circular concrete columns reinforced with glass fiber-reinforced polymer bars. author(s): jun liu, hongkai du, hong zhou, zhiling nan, and pingjun nie. publication: structural journal. volume: 116. issue: 4. appears on pages(s): 45-52

  • Review on the Performance of Glass Fiber Reinforced Concrete

    Review On The Performance Of Glass Fiber Reinforced Concrete

    kavita kene, et al conducted experimental study on behavior of steel and glass fiber reinforced concrete composites. the study conducted on fiber reinforced concrete with steel fibers of 0% and 0.5% volume fraction and alkali resistant glass fibers containing 0% and 25% by weight of cement of 12 mm cut length, compared the result.

  • Experimental Investigation of Fiber Reinforced Concrete Beams

    Experimental Investigation Of Fiber Reinforced Concrete Beams

    shear strength of fiber reinforced concrete beams was studied in this research project. three types of fibers were examined: hooked-end steel fiber, crimped-steel fiber, and crimped-monofilament polypropylene fibers. the experimental program included five beam specimens. two of the beams were control specimens in which one was reinforced

  • Experimental Study of Cement Alkali-Resistant Glass Fiber

    Experimental Study Of Cement Alkali-Resistant Glass Fiber

    experimental study of cement alkali-resistant glass fiber (c-argf) grouting material. shi z(1), wang q(1)(2)(3)(4), xu l(5). author information: (1)college of mining and safety engineering, shandong university of science and technology, qingdao 266590, china.



    proportions. the present work deals with the results of experimental investigations on glass fiber reinforced concrete. effect of these fibers on strengths of concrete are studied. fiber content varied from say (1.0%, 2.0%, 3.0%, 4.0 % & 5%) by weight of cement. various strengths considered for investigation are compressive strength and flexural strength for glass fiber reinforced concrete.

  • Experimental Studies on Residual Strength of Glass Fibre

    Experimental Studies On Residual Strength Of Glass Fibre

    this paper presents an experimental investigation on the residual compressive strength of glass fibre reinforced self compacting concrete using alkali-resistant glass fibres subjected to temperatures 2000c, 4000c and 6000c for various grades of concrete m35, m40, m 50 and m 55. journal



    it is found from experimental investigations that the use of polypropylene (pp) fiber in mix design of 1:2:4 gave the same strength as obtained by cement concrete of 1:1.5:3 mix. in this way an economical concrete could be made by adding polypropylene fiber and getting higher strength.

  • An Experimental Study on the Properties of Glass Fibre

    An Experimental Study On The Properties Of Glass Fibre

    glass fibres were added to the mix in 0.01%, 0.02 % and 0.03 % by volume of concrete. based on the test results, it was observed that the geopolymer concrete composites have relatively higher strength in short curing time (one day) than the geopolymer concrete and ordinary portland cement concrete.

  • Experimental Analysis on Strength Properties of Glass

    Experimental Analysis On Strength Properties Of Glass

    in the present experimental investigation the alkali resistant glass fiber of diameter 14 micron, length 24mm, having an aspect ratio of 855 was employed in percentage varying from 0, 10%, 20%, 30%, 50%, 60% and 80% to study the effect on compressive, split tensile and

  • Experimental and Numerical Studies on Flexural Behavior of

    Experimental And Numerical Studies On Flexural Behavior Of

    the use of glass fiber-reinforced polymer (gfrp) grids in reinforced concrete construction offers several advantages, such as high tensile strength and excellent corrosion resistance. this paper presents the results of experimental and numerical studies of the flexural performance of ultrahigh-performance concrete (uhpc) panels reinforced with gfrp grids.

  • Experimental Study on Thermoplastic Interlayers in

    Experimental Study On Thermoplastic Interlayers In

    glass fiber sensors with this measuring method are also applied for analysing reinforced concrete components, especially in the determination of surface strains with large gradients, in the early localisation of cracks and in the detection of bond stress between reinforcing steel and the concrete matrix, schmidt-thrö (2016).

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