Effects of fabric structures on the tensile properties of warp-knitted fabrics used as concrete reinforcements

Stolyarov, Oleg; Quadflieg, Till; Gries, Thomas

doi:10.1177/0040517515578334

Cited by 35 publications

(37 citation statements)

References 12 publications

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“…The tensile strength of fabric with the pillar stitch is smallest among three common types of warp knit stitches (tricot, cord, and pillar). 30 The purpose of this research work is to study and analyze the stretch properties of elasticized warp knitted fabric with pillar stitches and with longwise filling-in bare spandex and to determine their dependence on the technological parameters of knitting.…”

Section: Introductionmentioning

confidence: 99%

Stretch properties of elastic knitted fabric with pillar stitch

Kyzymchuk

Melnyk

2018

Journal of Engineered Fibers and Fabrics

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Knitted fabrics and products are subjected to a variety of stresses and loads/deformation during their usage. The loads are different by value, by direction, and by duration. The alternations of loading and unloading or resting processes affect the knitted structure and could bring about changes in the linear dimensions of the fabric or result in the deformation of the knitted items and ultimately the loss of product appearance or its functional properties. A wide range of textile materials resistant to multiply loads was produced by using elastomeric yarn that has an elongation of more than 95% and is able to attain full recovery after relaxation due to its chemical composition. This case study examines two existing test methods for evaluating the stretch properties of textile materials produced with the elastomeric yarns with emphasis on warp knitted abdominal binder-type fabrics. It was found that the linear density of the weft in-laying threads and the preliminary tension of the ground yarn which formed pillar stitch affect stretch properties of elastic warp knitted fabric: the full deformation and its constituent parts. The change in the preliminary elongation of the bare spandex in the 210%-270% range does not have a significant effect.

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Section: Introductionmentioning

confidence: 99%

Stretch properties of elastic knitted fabric with pillar stitch

Kyzymchuk

Melnyk

2018

Journal of Engineered Fibers and Fabrics

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“…Besonders bemerkenswert ist die hohe Steifigkeit der Fasern, die mit 0,8 bis 1,6 Prozent Bruchdehnung geeignet zur Bewehrung von Beton ist . Zusätzlich sind die Fasern elektrisch leitfähig und zeigen im elastischen Verformungsbereich ein ähnliches elektro‐mechanisches Verhalten wie Metalle auf . Das Verhältnis zwischen Dehnung und elektrischer Spannung lässt sich über den Korrelationsfaktor k beschreiben.

k = \frac{ΔR}{normalR} \cdot \frac{1}{normalε}

…”

Section: Introductionunclassified

Carbonfaserbewehrung als Sensor für Bauwerke

Quadflieg

Stolyarov

Gries

2017

Beton und Stahlbetonbau

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Carbon‐ und AR‐Glasfasern als Bewehrung für Beton sind korrosionsbeständiger als Stahl. In Form von Textilien aus Carbonfasern und AR‐Glas bilden sie in Kombination mit Beton den Werkstoff textilbewehrter Beton. Textilbewehrter Beton lässt sich im Vergleich zu Stahlbeton dünnwandiger in der Größenordnung weniger Millimeter ausführen, da er keine Mindestüberdeckung zum Korrosionsschutz der Bewehrung benötigt. Zudem sind Carbonfasern elektrisch leitend. Der Zusammenhang zwischen Dehnung und Änderung des elektrischen Widerstands der Fasern ermöglicht eine Bestimmung des Spannungszustands aufgrund der Widerstandsänderung. In Vorbereitung einer umfangreichen Grundlagenforschung wurden Versuche an unbeschichteten Carbongarnen im Beton durchgeführt. Es hat sich gezeigt, dass die Proportionalität zwischen Widerstandsänderung und Dehnung mit k‐Faktoren zwischen 1,5–3 bei Carbonfasern ähnlich der von Metall ist.

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“…Different types of high-strength textile materials are finding new applications for the reinforcement of structural parts [1][2][3][4]. For their manufacture, high strength and high modulus fibers and filaments, such as basalt, glass, carbon and others are generally used [2].…”

Section: Introductionmentioning

confidence: 99%

“…For their manufacture, high strength and high modulus fibers and filaments, such as basalt, glass, carbon and others are generally used [2]. In combination with the cement matrix, they present a new class of structural building materials -Textile-reinforced concrete.…”

Section: Introductionmentioning

confidence: 99%

Flexural Behavior of Textile-Reinforced Concrete

Volkova

Paykov

Semenov

et al. 2016

MATEC Web of Conferences

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Abstract. This paper deals with the flexural behaviour of textile-reinforced concrete (TRC). Two samples of TRC made of high strength reinforcing fabrics made of glass and carbon rovings were produced. Three-point bending test was carried out to examine the flexural performance of the developed samples. The maximum flexural strength and reinforcement efficiency were calculated. Experimental results showed that that all types of applied fabric reinforcement contributed to increases strength as compared to nonreinforced concrete. Furthermore, the deformation behavior of reinforced concrete was analyzed. The advantage is in higher residual load-bearing capacity, which allows maintaining the integrity of the structure.

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Effects of fabric structures on the tensile properties of warp-knitted fabrics used as concrete reinforcements

Cited by 35 publications

References 12 publications

Stretch properties of elastic knitted fabric with pillar stitch

Stretch properties of elastic knitted fabric with pillar stitch

Carbonfaserbewehrung als Sensor für Bauwerke

Flexural Behavior of Textile-Reinforced Concrete

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