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Strain experimental modal analysis of an Euler–Bernoulli beam based on the thermoelastic principle
ID Zaletelj, Klemen (Avtor), ID Slavič, Janko (Avtor), ID Šonc, Jaša (Avtor), ID Boltežar, Miha (Avtor)

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Izvleček
The strain mode shapes can be utilized as an indicator of vibration fatigue-hotspots and are utilized for predicting the distribution of damage intensity. However, the conventional approach for measurement, which involves using strain sensors, does not offer the necessary high spatial density required for accurately identifying critical locations or creating a comprehensive map of damage intensity. Non-contact methods have been employed to indirectly determine the full-field strain shapes, but when measuring kinematic quantities, a relation between kinematics and stress/strain must be known. For Euler–Bernoulli beam, the double spatial derivative is required which introduces a significant uncertainty. In contrast, by leveraging the thermoelastic principle, the full-field stress/strain response of an arbitrary structure can be directly measured using a high-speed infrared (IR) camera. The thermoelastic principle has not been extensively researched for strain experimental modal analysis (EMA). In this study, the hybrid EMA (based on one high-dynamic range sensor) was researched for thermoelastic identification of an Euler–Bernoulli beam. The minimum stress/temperature variation required to achieve accuracy comparable to scanning-laser kinematics-based strain mode shapes was investigated. The findings demonstrate that even when the noise floor is significantly higher than the signal, full-field strain mode shapes can be identified using IR cameras and the hybrid EMA method. By considering the minimum stress/temperature variation determined in this research (for aluminum and steel), the accuracy of thermoelasticity-based strain shapes can be evaluated during the experiment-design stage. While this research is theoretically and experimentally based on Euler–Bernoulli beam, generalization of the thermoelastic principle to arbitrary structure is feasible.

Jezik:Angleški jezik
Ključne besede:thermoelastic principle, strain shapes, modal identification, structural dynamics
Vrsta gradiva:Članek v reviji
Tipologija:1.01 - Izvirni znanstveni članek
Organizacija:FS - Fakulteta za strojništvo
Status publikacije:Objavljeno
Različica publikacije:Objavljena publikacija
Leto izida:2023
Št. strani:11 str.
Številčenje:Vol. 201, art. 110655
PID:20.500.12556/RUL-148420 Povezava se odpre v novem oknu
UDK:531.391:538.913 :510.643.5
ISSN pri članku:1096-1216
DOI:10.1016/j.ymssp.2023.110655 Povezava se odpre v novem oknu
COBISS.SI-ID:161829379 Povezava se odpre v novem oknu
Datum objave v RUL:22.08.2023
Število ogledov:599
Število prenosov:73
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Gradivo je del revije

Naslov:Mechanical systems and signal processing
Skrajšan naslov:Mech. syst. signal process.
Založnik:Elsevier
ISSN:1096-1216
COBISS.SI-ID:15296283 Povezava se odpre v novem oknu

Licence

Licenca:CC BY 4.0, Creative Commons Priznanje avtorstva 4.0 Mednarodna
Povezava:http://creativecommons.org/licenses/by/4.0/deed.sl
Opis:To je standardna licenca Creative Commons, ki daje uporabnikom največ možnosti za nadaljnjo uporabo dela, pri čemer morajo navesti avtorja.

Sekundarni jezik

Jezik:Slovenski jezik
Ključne besede:princip termoelastičnosti, deformacijske lastne oblike, modalna identifikacija, strukturna dinamika

Projekti

Financer:ARRS - Agencija za raziskovalno dejavnost Republike Slovenije
Številka projekta:P2-0263
Naslov:Mehanika v tehniki

Financer:ARRS - Agencija za raziskovalno dejavnost Republike Slovenije
Številka projekta:N2-0144
Naslov:Optična metoda za obratovalno identifikacijo reduciranega nelinearnega modela

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