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Erschienen in:

2020 | OriginalPaper | Buchkapitel

10. Latest Design Trends in Modal Accelerometers for Aircraft Ground Vibration Testing

verfasst von : Yves Govers, Julian Sinske, Thomas Petzsche

Erschienen in: Sensors and Instrumentation, Aircraft/Aerospace, Energy Harvesting & Dynamic Environments Testing, Volume 7

Verlag: Springer International Publishing

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Abstract

Accelerometers are widely encountered in structural analysis applications such as modal analysis with vibrational or impact input excitation and operational modal analysis. This paper aims to outline design trends and requirements for acceleration sensors in order to insure optimal structural analysis measurement results. Key parameters for a performing modal sensor are: sensitivity, mass, noise level, amplitude and phase frequency response, as well as thermal transient response, thermal sensitivity response, transverse sensitivity (cross axis), base strain and survivability which will be taken into detailed consideration in this paper.

Nowadays three IEPE (Integrated Electronic Piezo Electric) sensor designs can be considered: piezo-ceramic shear, piezo-bending beam and piezo-crystal shear mode sensing elements. Unfortunately, none of the sensor technologies available on the market today will allow for the best of all parameters mentioned earlier. Advantages and disadvantages have to be considered in order to make the optimal choice. Even though Variable Capacitive (VC) MEMS sensors can be used in cases of operational modal analysis at ultra-low frequencies, such as Bridge Structural Testing or Monitoring, only IEPE technology will be in this study.

Besides the technical properties of an accelerometer, the handling qualities during installation and removal are extremely important for high channel count systems. Installation time, error rate and reliability for more than 10 years during several tests a year are of special interest for the user. Among the considerations made here, easy monitoring and sensitive axis alignment compared to the overall coordinate system will be examined.

The German Aerospace Center (DLR) will illustrate the applicability of accelerometers in context of industrial testing such as Ground Vibration Testing (GVT) of aircraft structures or structural and modal testing of wind turbine blades where innovative methods such as allowing one free adjustable degree of freedom around one rotational axis in order to freely orient the sensitive axis.

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Vorheriges Kapitel Electromechanical Impedance Method for Applications in Boundary Condition Replication

Nächstes Kapitel Test-Based Uncertainty Quantification and Propagation Using Hurty/Craig-Bampton Substructure Representations

ISO 5347-xx series: “Methods for the calibration of vibration and shock transducers”, here in detail: ISO 5347-13:1993, Part 13: Testing of base strain sensitivity; ISO 5347-14:1993, Part 14: Resonance frequency testing of undamped accelerometers on a steel block, replaced by ISO16063-32; ISO 5347-15:1993, Part 15: Testing of acoustic sensitivity; ISO 5347-16:1993, Part 16: Testing of torque sensitivity; ISO 5347-17:1993, Part 17: Testing of fixed temperature sensitivity; ISO 5347-18:1993, Part 18: Testing of transient temperature sensitivity; ISO 5347-19:1993, Part 19: Testing of magnetic field sensitivity; ISO 5347-22:1997, Part 22: Accelerometer Resonance Testing-General Methods

ISO 16063-xx:1998 “Methods for the calibration of vibration and shock transducers” here in detail: ISO 16063-1: 1998: “Part 1: Basic concepts”; ISO 16063-21:2003 + Cor. 1:2009 + Amd. 1:2016: Vibration calibration by comparison to a reference transducer; ISO 16063-31: Part 31: Testing of transverse vibration sensitivity; ISO 16063-32: Part 32: Resonance testing-Testing the frequency and the phase response of accelerometers by shock excitation; ISO 16063-43: 2016: Part 43: Calibration of accelerometers by model-based parameter identification

Instrumentation Society of America; Recommended Practices: ISA-RP37.2-1982 (1995): Guide for Specifications and Tests for Piezoelectric Acceleration Transducers for Aerospace Testing

Kistler K-Beam^® Capacitive Accelerometers – Micromachined for Static Response; Sound & -Vibration 06.1996 (Kistler Special Print 20.179e-0696), present data sheet type 8316A_003-324a-08.17

Kubler, J.M., Bill, B.: PiezoBeam^® accelerometers: a proven and reliable design for modal analysis, Kistler Special Print 20.148e-08.93

Insalaco, M.D., Henning, T.B.: An efficient shuttle modal inspection system test, Kistler Special Print 920-243e-04.04

Zwolinski, B., Petzsche, T., Schnellinger, J., Kinsley, N.: Precision vibration measurement in dynamic temperature environments with PiezoStar^® IEPE accelerometers, Kistler Special Print 920-360a-08.07

Gundlach, J., Govers, Y.: Experimentelle Modalanalyse an einem aeroelastisch optimierten Rotorblatt mit Biege-Torsions-Kopplung im Projekt SmartBlades2. In: 9. VDI Fachtagung Schwingungen von Windenergieanlagen. Bremen, Germany (2018)

Govers, Y., Boeswald, M., Lubrina, P., et al.: AIRBUS A350XWB Ground Vibration Testing: Efficient techniques for customer oriented on-site modal identification. In: International Conference on Noise and Vibration Engineering. KU Leuven, Belgium (2014)

10.

Boeswald, M., Vollan, A., Govers, Y., et al.: Solar impulse – ground vibration testing and finite element model validation of a lightweight aircraft. In: International Forum on Aeroelasticity and Structural Dynamics. Paris, France (2011)

11.

Airbus Industries: https://www.airbus.com/newsroom/press-releases/en/2018/06/airbus-belugaxl-passes-ground-vibration-test.html\#media-list-image-image-all_ml_0-2

Titel: Latest Design Trends in Modal Accelerometers for Aircraft Ground Vibration Testing
verfasst von: Yves Govers
Julian Sinske
Thomas Petzsche
Verlag: Springer International Publishing
Buch: Sensors and Instrumentation, Aircraft/Aerospace, Energy Harvesting & Dynamic Environments Testing, Volume 7
Print ISBN: 978-3-030-12675-9

Electronic ISBN: 978-3-030-12676-6

Copyright-Jahr: 2020
DOI: https://doi.org/10.1007/978-3-030-12676-6_10

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