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Mechanical Tests Applied to Structural Health Monitoring: An Overview of Previous Experience

Marta Baran
Marta Baran
, 
Dominik Nowakowski
Dominik Nowakowski
, 
Janusz Lisiecki
Janusz Lisiecki
 oraz 
Sylwester Kłysz
Sylwester Kłysz
   | 23 lip 2021
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Data publikacji: 23 lip 2021
Zakres stron: 123 - 135
DOI: https://doi.org/10.2478/fas-2020-0012
Słowa kluczowe
© 2020 Marta Baran et al., published by Sciendo
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

[1] Dragan, K., Dziendzikowski, M., Kurnyta, A. and Kowalczyk, K. (2020). Perspective of Structural Health Monitoring for Military Aviation in Poland. ICAF 2019, Lecture Notes in Mechanical Engineering, Niepokolczycki A. and Komorowski J. (Eds.), pp. 1065-1081.10.1007/978-3-030-21503-3_84 Search in Google Scholar

[2] Dziendzikowski, M., Niedbala, P., Kurnyta, A., Kowalczyk, K. and Dragan, K. (2018). Structural Health Monitoring of a Composite Panel Based on PZT Sensors and a Transfer Impedance Framework. Sensors, 18(5), 1521. https://doi.org/10.3390/s1805152110.3390/s18051521598166029751664 Search in Google Scholar

[3] Kowalczyk, K., Dziendzikowski, M., Kurnyta, A., Niedbala, P. and Dragan, K. (2020). Application of RLC Filters and Analog Circuits for Increasing Information Bandwidth of Channels of Data Acquisition Units. ICAF 2019, Lecture Notes in Mechanical Engineering, Niepokolczycki A. and Komorowski J. (Eds.), pp. 956-965.10.1007/978-3-030-21503-3_75 Search in Google Scholar

[4] Kurnyta, A., Dziendzikowski, M., Dragan, K. and Leski, A. (2014). Approach to Health Monitoring of an Aircraft Structure with Resistive Ladder Sensors During Full Scale Fatigue Test. 7th European Workshop on Structural Health Monitoring, July 8-11, 2014. La Cité, Nantes, France. Search in Google Scholar

[5] ASTM E647-15: Standard Test Method for Measurement of Fatigue Crack Growth Rates. Search in Google Scholar

[6] ISO 12108:2018 Metallic materials — Fatigue testing — Fatigue crack growth method. Search in Google Scholar

[7] PN-84/H-04333: Metoda badania wzrostu pęknięcia zmęczeniowego przy stałej amplitudzie obciążenia. Search in Google Scholar

[8] Wronkowicz-Katunin, A., Katunin, A. and Dragan, K. (2019). Reconstruction of Barely Visible Impact Damage in Composite Structures Based on Non-Destructive Evaluation Results. Sensors, 19(21), 4629. https://doi.org/10.3390/s19214629.10.3390/s19214629686520931653063 Search in Google Scholar

[9] Wyrzykowski, J., Pleszakow, E. and Sieniawski, J. (1999). Odkształcanie i pękanie metali. WNT, Warszawa. ISBN: 83-204-2341-4. Search in Google Scholar

[10] ASTM D7136/D7136M-15. Standard Test Method for Measuring the Damage Resistance of a Fiber-Reinforced Polymer Matrix Composite to a Drop-Weight Impact Event. Search in Google Scholar

[11] Baran, M. and Synaszko, P. (2018). Compression After Impact Research, Laboratory for Materials Strength Testing Report No. SP-88/31/2018. AFIT Library. Search in Google Scholar

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