Slippage of Aramid Fabrics in Blast and Ballistic Impact Tests. Finite Element Modelling methods and consequences in ballistic resistance

G. Kechagiadakis; D. Lecompte; W. V. Paepegem

Slippage of Aramid Fabrics in Blast and Ballistic Impact Tests. Finite Element Modelling methods and consequences in ballistic resistance

G. Kechagiadakis, D. Lecompte, W. V. Paepegem

Structural and Blast Engineering

University of Ghent

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The sliding of samples in blast and ballistic impact tests is a frequently reported phenomenon. The inward response of materials to out of plane impulsive loads results in reaction forces from the boundaries that exceed, temporarily, the clamping forces. In this work, Aramid fabrics are subjected to blast loading tests for characterising the magnitude of their slipped boundaries from a circular clamping device. A Finite Element model describing a mesoscale Aramid Fabric with conditional frictional sliding boundaries subjected to blast loads is developed based on the experimental results. A second model configured for ballistic impact is developed in order to quantify the influence of slippage in the ballistic performance. The results reveal that more energy is absorbed when slippage is considered.

Original language	English
Title of host publication	Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025
Editors	Don Carlucci, W. Casey Uhlig
Publisher	DEStech Publications
Pages	207-218
Number of pages	12
ISBN (Electronic)	9781605956978
Publication status	Published - 2025
Event	34th International Symposium on Ballistics, BALLISTICS 2025 - Jacksonville, United States Duration: 19 May 2025 → 23 May 2025

Publication series

Name	Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025
Volume	1

Conference

Conference	34th International Symposium on Ballistics, BALLISTICS 2025
Country/Territory	United States
City	Jacksonville
Period	19/05/25 → 23/05/25

Keywords

Finite Element Modell
Aramid
Ballistic impact
Blast loading
Slippage
textiles

Cite this

Kechagiadakis, G., Lecompte, D., & Paepegem, W. V. (2025). Slippage of Aramid Fabrics in Blast and Ballistic Impact Tests. Finite Element Modelling methods and consequences in ballistic resistance. In D. Carlucci, & W. C. Uhlig (Eds.), Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025 (pp. 207-218). (Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025; Vol. 1). DEStech Publications.

Kechagiadakis, G. ; Lecompte, D. ; Paepegem, W. V. / Slippage of Aramid Fabrics in Blast and Ballistic Impact Tests. Finite Element Modelling methods and consequences in ballistic resistance. Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025. editor / Don Carlucci ; W. Casey Uhlig. DEStech Publications, 2025. pp. 207-218 (Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025).

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title = "Slippage of Aramid Fabrics in Blast and Ballistic Impact Tests. Finite Element Modelling methods and consequences in ballistic resistance",

abstract = "The sliding of samples in blast and ballistic impact tests is a frequently reported phenomenon. The inward response of materials to out of plane impulsive loads results in reaction forces from the boundaries that exceed, temporarily, the clamping forces. In this work, Aramid fabrics are subjected to blast loading tests for characterising the magnitude of their slipped boundaries from a circular clamping device. A Finite Element model describing a mesoscale Aramid Fabric with conditional frictional sliding boundaries subjected to blast loads is developed based on the experimental results. A second model configured for ballistic impact is developed in order to quantify the influence of slippage in the ballistic performance. The results reveal that more energy is absorbed when slippage is considered. ",

keywords = "Finite Element Modell, Aramid, Ballistic impact, Blast loading, Slippage, textiles",

author = "G. Kechagiadakis and D. Lecompte and Paepegem, \{W. V.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 by International Ballistics Society. All Rights Reserved.; 34th International Symposium on Ballistics, BALLISTICS 2025 ; Conference date: 19-05-2025 Through 23-05-2025",

year = "2025",

language = "English",

series = "Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025",

publisher = "DEStech Publications",

pages = "207--218",

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Kechagiadakis, G , Lecompte, D & Paepegem, WV 2025, Slippage of Aramid Fabrics in Blast and Ballistic Impact Tests. Finite Element Modelling methods and consequences in ballistic resistance. in D Carlucci & WC Uhlig (eds), Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025. Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025, vol. 1, DEStech Publications, pp. 207-218, 34th International Symposium on Ballistics, BALLISTICS 2025, Jacksonville, United States, 19/05/25.

Slippage of Aramid Fabrics in Blast and Ballistic Impact Tests. Finite Element Modelling methods and consequences in ballistic resistance. / Kechagiadakis, G.; Lecompte, D.; Paepegem, W. V.
Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025. ed. / Don Carlucci; W. Casey Uhlig. DEStech Publications, 2025. p. 207-218 (Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025; Vol. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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T1 - Slippage of Aramid Fabrics in Blast and Ballistic Impact Tests. Finite Element Modelling methods and consequences in ballistic resistance

AU - Kechagiadakis, G.

AU - Lecompte, D.

AU - Paepegem, W. V.

PY - 2025

Y1 - 2025

N2 - The sliding of samples in blast and ballistic impact tests is a frequently reported phenomenon. The inward response of materials to out of plane impulsive loads results in reaction forces from the boundaries that exceed, temporarily, the clamping forces. In this work, Aramid fabrics are subjected to blast loading tests for characterising the magnitude of their slipped boundaries from a circular clamping device. A Finite Element model describing a mesoscale Aramid Fabric with conditional frictional sliding boundaries subjected to blast loads is developed based on the experimental results. A second model configured for ballistic impact is developed in order to quantify the influence of slippage in the ballistic performance. The results reveal that more energy is absorbed when slippage is considered.

AB - The sliding of samples in blast and ballistic impact tests is a frequently reported phenomenon. The inward response of materials to out of plane impulsive loads results in reaction forces from the boundaries that exceed, temporarily, the clamping forces. In this work, Aramid fabrics are subjected to blast loading tests for characterising the magnitude of their slipped boundaries from a circular clamping device. A Finite Element model describing a mesoscale Aramid Fabric with conditional frictional sliding boundaries subjected to blast loads is developed based on the experimental results. A second model configured for ballistic impact is developed in order to quantify the influence of slippage in the ballistic performance. The results reveal that more energy is absorbed when slippage is considered.

KW - Finite Element Modell

KW - Aramid

KW - Ballistic impact

KW - Blast loading

KW - Slippage

KW - textiles

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M3 - Conference contribution

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T3 - Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025

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BT - Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025

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A2 - Uhlig, W. Casey

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Kechagiadakis G , Lecompte D, Paepegem WV. Slippage of Aramid Fabrics in Blast and Ballistic Impact Tests. Finite Element Modelling methods and consequences in ballistic resistance. In Carlucci D, Uhlig WC, editors, Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025. DEStech Publications. 2025. p. 207-218. (Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025).

Slippage of Aramid Fabrics in Blast and Ballistic Impact Tests. Finite Element Modelling methods and consequences in ballistic resistance

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34th International Symposium on Ballistics