TY - JOUR A1 - Daschewski, Maxim A1 - Kreutzbruck, Marc A1 - Prager, Jens T1 - Influence of thermodynamic properties of a thermo-acoustic emitter on the efficiency of thermal airborne ultrasound generation JF - Ultrasonics N2 - In this work we experimentally verify the theoretical prediction of the recently published Energy Density Fluctuation Model (EDF-model) of thermo-acoustic sound generation. Particularly, we investigate experimentally the influence of thermal inertia of an electrically conductive film on the efficiency of thermal airborne ultrasound generation predicted by the EDF-model. Unlike widely used theories, the EDF-model predicts that the thermal inertia of the electrically conductive film is a frequency-dependent parameter. Its influence grows non-linearly with the increase of excitation frequency and reduces the efficiency of the ultrasound generation. Thus, this parameter is the major limiting factor for the efficient thermal airborne ultrasound generation in the MHz-range. To verify this theoretical prediction experimentally, five thermo-acoustic emitter samples consisting of Indium-Tin-Oxide (ITO) coatings of different thicknesses (from 65 nm to 1.44 lm) on quartz glass substrates were tested for airborne ultrasound generation in a frequency range from 10 kHz to 800 kHz. For the measurement of thermally generated sound pressures a laser Doppler vibrometer combined with a 12 lm thin polyethylene foil was used as the sound pressure detector. All tested thermo-acoustic emitter samples showed a resonance-free frequency response in the entire tested frequency range. The thermal inertia of the heat producing film acts as a low-pass filter and reduces the generated sound pressure with the increasing excitation frequency and the ITO film thickness. The difference of generated sound pressure levels for samples with 65 nm and 1.44 lm thickness is in the order of about 6 dB at 50 kHz and of about 12 dB at 500 kHz. A comparison of sound pressure levels measured experimentally and those predicted by the EDF-model shows for all tested emitter samples a relative error of less than ±6%. Thus, experimental results confirm the prediction of the EDF-model and show that the model can be applied for design and optimization of thermo-acoustic airborne ultrasound emitters. KW - Thermophone KW - Thermo-acoustic effect KW - Thermal sound generation KW - Resonance-free ultrasound emitter KW - Energy density fluctuation KW - Thermal inertia PY - 2015 DO - https://doi.org/10.1016/j.ultras.2015.06.008 SN - 0041-624x VL - 63 SP - 16 EP - 22 PB - Elsevier B.V. CY - Amsterdam AN - OPUS4-34573 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Daschewski, Maxim A1 - Kreutzbruck, Marc A1 - Prager, Jens A1 - Dohse, Elmar A1 - Gaal, Mate A1 - Harrer, Andrea T1 - Resonanzfreie Messung und Anregung von Ultraschall JF - Technisches Messen N2 - In diesem Beitrag präsentieren wir innovative Methoden für die breitbandige und resonanzfreie Messung und Anregung von Ultraschall. Das Messverfahren verwendet eine Kunststofffolie und ein Laser-Vibrometer als breitbandigen und resonanzfreien Empfänger. Im Allgemeinen ermöglicht dieses Verfahren eine präzise Messung der Schallschnelle und des Schalldruckes in beliebigen, für das Laserlicht transparenten Flüssigkeiten und Gasen mit bekannter Dichte und Schallgeschwindigkeit. Das resonanzfreie Senden von Ultraschall basiert auf einem elektro-thermo-akustischen Wandlerprinzip und ermöglicht, im Gegensatz zu herkömmlichen Ultraschallwandlern, die Erzeugung von beliebig geformten akustischen Signalen ohne Resonanzen und ohne Nachschwingen. N2 - In this contribution we present innovative methods for broadband and resonance-free sensing and emitting of ultrasound. The sensing method uses a polyethylene foil and a laser vibrometer as a broadband and resonance-free sound receiver. In general, this method enables absolute measurement of sound particle velocity and sound pressure in arbitrary, laser beam transparent liquids and gases with known density and sound velocity. The resonance-free emitting method is based on the electro-thermo-acoustic principle and enables, contrary to conventional ultrasound transducers, generation of arbitrary shaped acoustic signals without resonances and post-oscillations. KW - Ultraschall KW - Übertragungsfunktion KW - Charakterisierung von Ultraschallmesssystemen KW - Thermo-akustische Ultraschallemitter KW - Ultrasound KW - Transfer function KW - Characterization of ultrasonic measurement systems KW - Thermo-acoustic ultrasound emitter PY - 2015 DO - https://doi.org/10.1515/teme-2014-0020 SN - 0340-837X SN - 0178-2312 SN - 0171-8096 VL - 82 IS - 3 SP - 156 EP - 166 PB - Oldenbourg CY - München AN - OPUS4-32733 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Daschewski, Maxim A1 - Kreutzbruck, Marc A1 - Prager, Jens ED - Kollmeier, B. T1 - Ein neues Modell zur Beschreibung der thermo-akustischen Schallerzeugung T2 - DAGA 2014 - 40. Jahrestagung für Akustik - Fortschritte der Akustik N2 - In unserem Beitrag präsentieren wir ein verallgemeinertes physikalisches Modell der thermischen Schallerzeugung. Im Gegensatz zur existierenden analytischen Näherungen erlaubt es eine exakte analytische Vorhersage des thermisch generierten Schalldrucks in Fluiden und Festkörpern, berücksichtigt die akustischen Nahefeld- und Schallschwächungseffekte und ist anwendbar für beliebige thermische Energiequellen, wie stromdurchflossene elektrische Leiter aber auch chemische Reaktionen, Plasmabrennen oder Laseranregung. Zur Verifikation des Modells vergleichen wir die analytischen Ergebnisse mit experimentellen Schalldruckmessungen an thermo-akustischen Emittern in Luft in einem Frequenzband von 4 kHz bis 1 MHz. Zusätzlich wurde die Effizienz der Wandler mit der von konventionellen piezoelektrischen Luftultraschallwandlern verglichen. Da die Schallerzeugung ohne mechanisch bewegliche Komponenten auskommt, arbeiten die thermo-akustischen Emitter resonanzfrei. Somit ist es möglich, beliebig geformte Schallsignale exakt und frei von Nachschwingen zu erzeugen. Thermo-akustische Schallemitter haben damit das Potenzial für eine breite Anwendung in der angewandten Akustik als leistungsfähige und resonanzfreie Schallsender mit einer Bandbreite bis in den Subgigahertz-Bereich. T2 - DAGA 2014 - 40. Jahrestagung für Akustik CY - Oldenburg, Germany DA - 10.03.2014 PY - 2014 SN - 978-3-939296-06-5 SP - 790 EP - 791 AN - OPUS4-31132 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - CONF A1 - Kreutzbruck, Marc A1 - Pelkner, Matthias A1 - Gaal, Mate A1 - Daschewski, Maxim A1 - Brackrock, Daniel T1 - Evolution of modern NDT-methods for the inspection of lightweight components T2 - 12th International conference of the Slovenian society for non-destructive testing - Application of contemporary non-destructive testing in engineering (Proceedings) N2 - NDT is a multidisciplinary research area fusing the disciplines of natural Science and engineering. Particularly in the early development stages of a new testing method, feasibility investigations focus on the fundamental physical interaction between the sensing mechanism and specimen. Research activities during subsequent phases of modular prototype development, technical System Integration and Validation primarily attempt to solve the practical engineering and real-life aspects of a testing method. We show several examples of new methods in different stages of development and highlight the potential for further industrial use. The first section deals with Steel surfaces of lightweight components which are inspected with pm-sized magneto resistive sensor arrays. This quantitative magnetic stray field approach combines high spatial resolution and very high sensitivity, enabling the user to detect even very small micro-defects. Tuming to CFRP components we also show new developments in airbome ultrasonic testing. Here we use ferroelectret foils to reduce the acoustical mismatch between transducer and air, which enhances the signal-to-noise ratio. A further example illuminates the use of metallic nano layers as a broadband thermo acoustical emitter. Their use provides both high sound pressures and very broadband Signal characteristics. When it comes to CFRP components and other anisotropic and highly Scattering materials, ultrasonic matrix arrays in conjunction with many angles of incidences per transducer position can help to enhance the statistics of a testing problem. In the field of conventional water-coupled UT testing we also show the use of matrix array transducers providing a tomographic-like 3D-image of impact damage in CFRP samples. T2 - 12th International conference of the Slovenian society for non-destructive testing - Application of contemporary non-destructive testing in engineering CY - Portoroz, Slovenia DA - 04.09.2013 KW - GMR-sensors arrays KW - Air coupled ultrasonics KW - Thermo acoustical transducers KW - Matrix arrays PY - 2013 SN - 978-961-93537-0-7 SP - 303 EP - 314 AN - OPUS4-29245 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER -