Real-time Measurement of Projectile Velocity in a Ballistic Fabric with a High-frequency Doppler Radar

L. Gilson, A. Imad, L. Rabet, Jan Van Roey, J. Gallant

Research output: Contribution to journalArticlepeer-review

Abstract

Background: Because of technical limitations, most experimental studies on the energy-absorbing properties of ballistic fabrics are limited to discrete evaluations based on impact and residual velocities. Consequently, the continuous interaction between a projectile and a target material is still commonly assessed with analytical models or numerical simulations, the validation of which is based on the aforementioned discrete values. Objective: The present document aims at describing and validating a new experimental method to make it possible to evaluate the continuous evolution of the projectile velocity during penetration into a fabric material. The method is based on the Doppler effect and a specific and complex nonstationary signal treatment. Methods: A high-frequency continuous-wave Doppler radar was adapted to assess the continuous evolution of the velocity of a projectile penetrating a fabric material. Based on two ballistic-grade fabric configurations, a perforating and a nonperforating case were described and evaluated. The instantaneous Doppler frequency was extracted based on the Hilbert-Huang transform. A validation of the proposed method was performed based on high-speed camera images, giving the displacement of the apex of the deformation pyramid of the fabric with time. Additionally, a Weibel® Doppler radar was used to measure the impact velocity. Results: Based on instantaneous frequencies deduced from the high-frequency radar signal analysis, Doppler theory and high-speed camera images, velocity–time and displacement–time plots were obtained. Additionally, the evolution of the fabric deformation (pyramid morphology) was recorded from the high-speed camera images. Conclusions: Comparisons between the data assessed with the high-frequency Doppler radar and those deduced from the high-speed camera indicated that good agreement exists between the two methods. The new Doppler radar method seems to be a promising complementary tool for measuring the continuous interaction between a projectile and a fabric target material.

Original languageEnglish
Pages (from-to)533-547
Number of pages15
JournalExperimental Mechanics
Volume61
Issue number3
DOIs
Publication statusPublished - Mar 2021

Keywords

  • Ballistic impact
  • Continuous measurement
  • Doppler radar
  • High-speed camera
  • Instantaneous frequency
  • Method validation
  • Nonstationary signal analysis
  • Projectile velocity

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