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Date
2024-11-02
Author
von Boyneburgk, Claudia LouiseZarges, Jan-ChristophSeim, WernerHeim, Hans-Peter
Subject
620  Engineering  NaturfaserWerkstoffprüfungTextiltechnikTextilverbundstoff
URI
doi:10.17170/kobra-2024110611076

doi:10.3390/jcs8110454
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Aufsatz

Investigation of Dynamic-Cyclic, Dynamic-Impact, and Timber-Construction-Relevant Characteristics of Wood-Textile Composites

Abstract
Wood–Textile Composites (WTCs) are a new type of composite material based on willow wood strips and polypropylene that combines the properties of classic natural-fiber-reinforced polymers with an innovative textile wood design. While the basic quasi-static properties have already been investigated and described, there is a lack of knowledge about the behavior of the material under dynamic-cyclic and dynamic-impact loading as well as in relation to basic wood construction parameters. The present study is intended to contribute to the later use of the developed material, e.g., in architecture. For this purpose, fatigue tests, dart drop tests (impact and penetration), impact bending tests, and embedment tests were carried out. It was shown that embedding wood fabrics in a thermoplastic matrix leads to a significant increase in resistance to impact loads compared to the neat basic materials. It was also shown that the ratio of the failure stress in the fatigue test to the tensile strength of the WTC corresponds to that of other fiber-reinforced thermoplastics at around 70%. The embedment tests showed that WTC has good values compared to neat wood.
Citation
In: Journal of Composites Science  Volume 8 / Issue 11 (2024-11-02) eissn:2504-477X
Sponsorship
Gefördert durch den Publikationsfonds der Universität Kassel
Collections
Artikel  (Publikationen im Open Access gefördert durch die UB)
Citation
@article{doi:10.17170/kobra-2024110611076,
   author={von Boyneburgk, Claudia Louise and Zarges, Jan-Christoph and Seim, Werner and Heim, Hans-Peter},
   title={Investigation of Dynamic-Cyclic, Dynamic-Impact, and Timber-Construction-Relevant Characteristics of Wood-Textile Composites},
   journal={Journal of Composites Science},
   year={2024}
}
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3010 Zarges, Jan-Christoph
3010 Seim, Werner
3010 Heim, Hans-Peter
4000 Investigation of Dynamic-Cyclic, Dynamic-Impact, and Timber-Construction-Relevant Characteristics of Wood-Textile Composites / von Boyneburgk, Claudia Louise
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2024-11-06T15:20:08Z
2024-11-06T15:20:08Z
2024-11-02
doi:10.17170/kobra-2024110611076
http://hdl.handle.net/123456789/16147
Gef&ouml;rdert durch den Publikationsfonds der Universit&auml;t Kassel
eng
Namensnennung 4.0 International
http://creativecommons.org/licenses/by/4.0/
natural fiber composites
materials testing
fatigue behavior
embedment strength
textile engineering
dart drop test
impact bending test
620
Investigation of Dynamic-Cyclic, Dynamic-Impact, and Timber-Construction-Relevant Characteristics of Wood-Textile Composites
Aufsatz
Wood&ndash;Textile Composites (WTCs) are a new type of composite material based on willow wood strips and polypropylene that combines the properties of classic natural-fiber-reinforced polymers with an innovative textile wood design. While the basic quasi-static properties have already been investigated and described, there is a lack of knowledge about the behavior of the material under dynamic-cyclic and dynamic-impact loading as well as in relation to basic wood construction parameters. The present study is intended to contribute to the later use of the developed material, e.g., in architecture. For this purpose, fatigue tests, dart drop tests (impact and penetration), impact bending tests, and embedment tests were carried out. It was shown that embedding wood fabrics in a thermoplastic matrix leads to a significant increase in resistance to impact loads compared to the neat basic materials. It was also shown that the ratio of the failure stress in the fatigue test to the tensile strength of the WTC corresponds to that of other fiber-reinforced thermoplastics at around 70%. The embedment tests showed that WTC has good values compared to neat wood.
open access
von Boyneburgk, Claudia Louise
Zarges, Jan-Christoph
Seim, Werner
Heim, Hans-Peter
19 Seiten
doi:10.3390/jcs8110454
Naturfaser
Werkstoffpr&uuml;fung
Textiltechnik
Textilverbundstoff
publishedVersion
eissn:2504-477X
Issue 11
Journal of Composites Science
Volume 8
false
454
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Namensnennung 4.0 International
Except where otherwise noted, this item's license is described as Namensnennung 4.0 International