Toward Improvements in Pressure Measurements for Near Free-Field Blast Experiments

Toward Improvements in Pressure Measurements for Near Free-Field Blast Experiments

This paper proposes two ways to improve pressure measurement in air-blast experimentations, mostly for close-in detonations defined by a small-scaled distance below 0.4 m.kg<sup>−1/3</sup>. Firstly, a new kind of custom-made pressure probe sensor is presented. The transducer is a piezoel...

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Bibliographic Details
Main Authors: Maylis Lavayssière, Alexandre Lefrançois, Bernard Crabos, Marc Genetier, Maxime Daudy, Sacha Comte, Alan Dufourmentel, Bruno Salsac, Frédéric Sol, Pascal Verdier, Patrick Pons
Format: Article
Language:English
Published: MDPI AG 2023-06-01
Series:Sensors
Subjects:
pressure sensors
dynamic calibration
transfer function
metrology
shock tube
deconvolution
Online Access:https://www.mdpi.com/1424-8220/23/12/5635
Description
Summary:This paper proposes two ways to improve pressure measurement in air-blast experimentations, mostly for close-in detonations defined by a small-scaled distance below 0.4 m.kg<sup>−1/3</sup>. Firstly, a new kind of custom-made pressure probe sensor is presented. The transducer is a piezoelectric commercial, but the tip material has been modified. The dynamic response of this prototype is established in terms of time and frequency responses, both in a laboratory environment, on a shock tube, and in free-field experiments. The experimental results show that the modified probe can meet the measurement requirements of high-frequency pressure signals. Secondly, this paper presents the initial results of a deconvolution method, using the pencil probe transfer function determination with a shock tube. We demonstrate the method on experimental results and draw conclusions and prospects.
ISSN:1424-8220

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