Electromagnetic Launching System as an Alternative to Non-Destructive Sonic Wave Generation for Steel Bar Length Determination

Electromagnetic Launching System as an Alternative to Non-Destructive Sonic Wave Generation for Steel Bar Length Determination

Soil nailing system is widely used along highways in Brazil. Non-destructive techniques have been used to estimate the length of installed soil nails. Sonic Echo and Impulse Response techniques evaluate the bar length using sonic wave propagation. The methods are similar and consists in generate an...

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Bibliographic Details
Published in:Revista IEEE América Latina Vol. 19; no. 2; pp. 306 - 313
Main Authors: Grossi da Silva, Isabela, do Couto Bonfim, Marlio Jose, Pereira Faro, Vitor
Format: Journal Article
Language:English
Published: Los Alamitos IEEE 01-02-2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Bar length evaluation
Bars
Capacitors
Coilguns
Data analysis
Electromagnetic forces
Electromagnetic launcher
Frequency analysis
Impact analysis
Impulse response
Microcontrollers
Non-destructive technique
Nondestructive testing
Optimization
Projectiles
Propagation velocity
Railguns
Reproducibility
Reproducibility of results
Soil
Soil nailing
Sonic wave
Sound waves
Steel
Wave generation
Wave propagation
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Summary:Soil nailing system is widely used along highways in Brazil. Non-destructive techniques have been used to estimate the length of installed soil nails. Sonic Echo and Impulse Response techniques evaluate the bar length using sonic wave propagation. The methods are similar and consists in generate an impact with a hammer. Results may be affected by this non-standard procedure. This paper aims to propose an automated sound wave generation in order to carried out tests quickly, with reproducibility and without operator dependence. An electromagnetic launching system was developed, which uses a projectile in place of the hammer, and the electromagnetic force instead of human force. The sound data was received by a microphone and sent to the computer by a microcontroller, making the system compact and portable. Projectile output speed optimization and impact reproducibility were analyzed. Nails length were obtained by both time and frequency domain data analysis. Results showed high reproducibility under the same initial condition. Propagation velocity presented a relative error less than 1% for steel bar with length of 1 m.
ISSN:1548-0992
1548-0992
DOI:10.1109/TLA.2021.9443073