Experimental investigation of the mechanical properties of basalt fiber‐reinforced concrete

Jalasutram, Sruthi; Sahoo, Dipti Ranjan; Matsagar, Vasant

doi:10.1002/suco.201500216

Cited by 100 publications

(47 citation statements)

References 21 publications

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“…Hasan Katkhuda and their fellows [30] examined that adding of 18mm basalt fiber in plain concrete will increase in flexural strength while same will give max increase of flexural strength in recycled and treated recycled concrete aggregate by adding 1.5% basalt fiber. Shruti Jalasutram and their fellows [31] revealed that adding 12.7mm and 2% basalt fiber in concrete will increase max 75% of flexural strength of concrete. Wang Jun and their fellows [32] conclude that adding 30mm and 0.25% basalt fiber in concrete will give a min increase of 0.53% flexural strength.…”

Section: Flexural Strengthmentioning

confidence: 98%

“…Hasan Katkhuda and their fellows [30] conclude that increase in compressive strength while adding basalt fiber of 18mm length in concrete, but while replacing aggregate with recycled & treated recycled concrete aggregate it gives an increase in compressive strength when adding 0.5 & 1%, while decreases when adding basalt fiber 0.1 & 1.5%. Shruti Jalasutram and their fellows [31] examined that 12.7mm length and 0.5,1,1.5,2% of basalt fiber added in concrete it gives decrease in compressive strength 0, 2.6, 2.08, 2.86% respectively. Wang Jun and their fellows [32] Revade and their fellows [33] added 0.5, 1.0, 1.5% basalt fiber of 12mm length results increase in compressive strength 13.27, 11.15, 7.06% respectively.…”

Section: Hardened Concrete Properties: a Compressive Strengthmentioning

confidence: 99%

“…Hasan Katkhuda and their fellows [30] examined that adding of 18mm basalt fiber in plain concrete will increase in tensile strength while same will decrease in recycled and treated recycled concrete aggregate when added 0.1% basalt fiber. Shruti Jalasutram and their fellows [31] determine that adding 0.5 & 1% basalt fiber of 12.7mm length will give min and max tensile strength of 3.4 & 13.7% respectively. Wang Jun and their fellows [32] researched that adding 0.2% of 30mm length basalt fiber will decrease in tensile strength of 2.5%, but for same length 3% of basalt fiber will give an increase in tensile strength of 22.5%.…”

Section: B Splitting Tensile Strengthmentioning

confidence: 99%

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Usage of Chopped Basalt Fibers in Concrete Composites: A Review

Sondarva¹,

Bhogayata²

2017

IJERT

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This paper represents the outcomes of some latest trends of research in the field of concrete composites prepared with chopped basalt fibers (CBF) as fillers. The paper summarizes noticeable findings of the experimental studies carried out to demonstrate the advantages and limitations of the addition of CBF in a conventional concrete specifically. The review inspired to conclude that the effect of addition of chopped basalt fibers has been studied by performing tests for the workability of fresh mixes, compressive strength, splitting tensile strength and flexure strength with varying fractions and sizes of CBF. It was noticed that the workability reduced with addition of CBF and the strength properties showed an increment due to the CBF addition. However, lacking the explicit knowledge on the optimum dosage and preferred aspect ratio of CBF from the durability perspectives requires attention. Moreover, a compound usage of CBF with prevailing additives namely polymers, fly ash, silica fumes may be one of the potential areas for the researchers. Therefore, a need of extensive experimental study can be proposed dedicated to a full length experimental program for durability studies on concrete containing CBF can be proposed. The research outcomes indicated that addition of CBF into the concrete may prove advantageous to overcome the durability issues of concrete.

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Section: Flexural Strengthmentioning

confidence: 98%

Section: Hardened Concrete Properties: a Compressive Strengthmentioning

confidence: 99%

Section: B Splitting Tensile Strengthmentioning

confidence: 99%

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Usage of Chopped Basalt Fibers in Concrete Composites: A Review

Sondarva¹,

Bhogayata²

2017

IJERT

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“…Because crimped wire mesh is being used as much as reinforcing bars in walls and slabs, an experimental research using crimped wire mesh is highly important and necessary (Figure ). Particularly, there has been only a few research on wire mesh‐reinforced concrete (WMRC) with steel fibers, which has shown potential to improve the mechanical properties of concrete such as ductility, toughness, and bond strength . Therefore, this paper deviates from the evaluation of impact resistance of concrete which has largely taken a traditional view of material, but is an outcome of an experimental research project in evaluating the impact resistance of concrete conditioning on the presence or absence of crimped wire mesh, evaluating the impact resistance of steel fiber‐reinforced concrete (SFRC), and gauging the impact resistance of wire mesh‐ and steel fiber‐reinforced concrete panels.…”

Section: Introductionmentioning

confidence: 99%

“…Particularly, there has been only a few research on wire mesh-reinforced concrete (WMRC) with steel fibers, which has shown potential to improve the mechanical properties of concrete such as ductility, toughness, and bond strength. 4,[7][8][9] Therefore, this paper deviates from the evaluation of impact resistance of concrete which has largely taken a traditional view of material, but is an outcome of an experimental research project in evaluating the impact resistance of concrete conditioning on the presence or absence of crimped wire mesh, evaluating the impact resistance of steel fiber-reinforced concrete (SFRC), and gauging the impact resistance of wire mesh-and steel fiber-reinforced concrete panels. Specifically, this study aims to evaluate (a) the effect of the presence or absence of Discussion on this paper must be submitted within two months of the print publication.…”

Section: Introductionmentioning

confidence: 99%

High‐velocity impact experiment of concrete panels reinforced with crimped wire mesh and steel fibers

Kim

Kang

Jang

et al. 2018

Structural Concrete

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This experimental research aims to evaluate the impact resistance of the crimped wire mesh‐ and steel fiber‐reinforced concrete panels that receive the impact load of the high‐velocity projectile. The concrete panel's impact resistance was evaluated by using variables such as the steel fiber volume fraction, presence of crimped wire‐mesh reinforcement, thickness of panel, impact velocity, and the size of aggregates. The impact resistance was evaluated by using the nondimensional impact factor where various variables could be integrated. Although the improvement of the impact resistance particularly regarding its penetration depth caused by the steel fiber mix was insufficient, there was a visible effect of improvement in impact resistance for scabbing and perforation. This occurred as the steel fiber had a bridging effect within the concrete matrix. Moreover, when reinforced with crimped wire mesh, the area loss of the front and rare face decreased. While it was effective for perforation and scabbing, it was insufficient for improving the resistance of penetration. Meanwhile, there were some cases where a splitting bond failure occurred along the cover of the rear face in a few specimens. The outcomes suggest that if steel fibers are mixed with the wire mesh‐reinforced concrete panels, this, in turn, increases the splitting bond strength based on a bridging effect, thereby preventing a splitting bond failure.

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Investigation on pull‐out behavior and interface critical parameters of polymer fibers embedded in concrete and their correlation with particular fiber properties

Sigrüner

Muscat

Strübbe

2021

J of Applied Polymer Sci

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A crucial problem in concrete engineering is the corrosion of steel reinforcements. Polymer fibers as alternative reinforcement material can prevent corrosion; however, high adhesion to concrete and good fiber mechanics are necessary for polymers to be considered as an alternative reinforcement. This study tested different thermoplastic polymer materials to evaluate their level of adhesion to concrete. The adhesion properties of different self‐drawn polymer fibers were analyzed by extracting the fibers from concrete using single fiber pull‐out test (SFPT). To determine the adhesion mechanism, different polymer properties were analyzed and correlated to SFPT. Strong evidence was found that the fibers mechanical properties correlate with SFPT. Roughening the fiber surface increases the SFPT results significantly. While highly polar materials can support the adhesion process, a clear correlation could not be found. This study identifies high stiffness and roughness as the crucial properties of polymer fibers used in concrete engineering. If these factors can be engineered into the fiber, polymer fibers can present an alternative to steel in concrete reinforcement.

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Experimental investigation of the mechanical properties of basalt fiber‐reinforced concrete

Cited by 100 publications

References 21 publications

Usage of Chopped Basalt Fibers in Concrete Composites: A Review

Usage of Chopped Basalt Fibers in Concrete Composites: A Review

High‐velocity impact experiment of concrete panels reinforced with crimped wire mesh and steel fibers

Investigation on pull‐out behavior and interface critical parameters of polymer fibers embedded in concrete and their correlation with particular fiber properties

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