Quantification of the Transversal Fiber Strand Stiffness of Textiles Used in Textile-Reinforced Concrete via Shore Hardness

Textile-reinforced concrete is characterized by its high-performance load-bearing behavior. The basis of these properties is largely determined by the characteristics of the textile used. The textile in turn consists of fibers that are bonded together by means of a matrix (impregnation). Both the fi...

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Bibliographic Details
Published in:Buildings (Basel) 2022-11, Vol.12 (11), p.2038
Main Authors: Beßling, Markus, Manko, Leonie, Orlowsky, Jeanette
Format: Article
Language:English
Subjects:
bonding
Composite materials
Concrete
Fibers
Friction
Hardness
impregnation
Mechanical properties
Modulus of elasticity
Reinforced concrete
Stiffness
Tensile strength
textile-reinforced concrete
Textiles
Yarn
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Summary:Textile-reinforced concrete is characterized by its high-performance load-bearing behavior. The basis of these properties is largely determined by the characteristics of the textile used. The textile in turn consists of fibers that are bonded together by means of a matrix (impregnation). Both the fiber material and the impregnation significantly influence the tensile and bonding properties of the textile. The performance of the impregnation depends largely on its stiffness. In this publication, the fiber strand stiffness is quantified by means of shore hardness measurements, and the influence of the fiber strand stiffness on the tensile and composite properties is presented. The Shore hardness is a kind of Young’s modulus. The tests can be performed on the end product (manufactured fiber strand) with little effort. The test setup was adapted to determine the Shore hardness on the fiber strand. A comparison between the hardness and tensile strength shows a direct correlation. A dependency can also be identified and described of the bond between the textile and the concrete and the hardness. The investigations shown make quantifying the fiber strand stiffness based on hardness appear reasonable.
ISSN:2075-5309
2075-5309
DOI:10.3390/buildings12112038