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- Impact-Echo (3)
- EFIT (2)
- Geometry Effects (2)
- Nondestructive Testing (2)
- Air-coupled ultrasound (1)
- Bayesian approach (1)
- Characterization (1)
- Charakterisierung (1)
- Concrete (1)
- Elastodynamic finite integration technique (EFIT) (1)
Organisationseinheit der BAM
Zusammenfassung
Bei der Errichtung von Spannbetonbauwerken und der Verwendung immer leistungsfähigerer Betone werden die Anforderungen an eine hochwertige und fehlerlose Bauausführung stetig höher.
Zur Vermeidung von Baumängeln und damit zur Sicherung der Tragfähigkeit, sowie zur Erhöhung der Lebensdauer eines Bauwerks ist eine Qualitätsüberwachung bzw. - kontrolle notwendig. Die Hüllrohrortung und die Bestimmung des Verpresszustandes ist demzufolge eine Aufgabe, der im Bauwesen eine wachsende Bedeutung zukommt.
An einem Betonprobekörper mit drei Hüllrohren mit unterschiedlichen Verpresszuständen wurden Messungen durchgeführt, mit dem Ziel, diese zu orten und Aussagen über den Verfüllzustand zu machen.
Die Position der Hüllrohre im Betonprobekörper konnte eindeutig bestimmt werden. Es war nicht möglich, die Tiefenlage zu ermitteln. Nach der Einbringung und Verpressung eines Stabstahles in eines der Hüllrohre waren signifikante Veränderungen im Impaktechogramm zu erkennen, so dass die beiden Verfüllzustande voneinander zu unterscheiden waren.
Gerade bei begrenzter Probekörpergeometrie ist zu beobachten, dass die Impaktechogramme mit regelmäßigen Mustern überlagert werden (Geometrieeffekte). Diese werden hauptsächlich durch die an den seitlichen Bauteilbegrenzungen reflektierten Wellenanteile ausgelöst, erkennbar in den EFIT-Simulationen, welche qualitativ sehr gut mit den experimentellen Befunden übereinstimmen.
Laser vibrometric contactless sound field measurements at a concrete test block are presented. Both excitation by an ultrasonic probe and by an impactor were used. The wave modes can be identified by their geometric wave forms and propagation velocities. Additionally, numerical simulation of the experimental situation is used to support this interpretation. Possible applications of the presented technique are discussed. ©2005 American Institute of Physics
In impact-echo testing of finite concrete structures, reflections of Rayleigh and body waves from lateral boundaries significantly affect time-domain signals and spectra. In the present paper we demonstrate by numerical simulations and experimental measurements at a concrete specimen that these reflections can lead to systematic errors in thickness determination. These effects depend not only on the dimensions of the specimen, but also on the location of the actual measuring point and on the duration of the detected time-domain signal.
Acoustic NDT methods like ultrasonic echo and impact-echo are successfully used for NDT of concrete structures. This paper describes useful techniques for a detailed experimental study of the elastic wave propagation, which is highly relevant for the interpretation of the results obtained from practical measurement applications.
By using a scanning laser vibrometer it becomes possible to obtain a 2D visualization of the elastic waves propagating along the surfaces of concrete specimens. Time slices are prepared so that the wave field becomes apparent.
In order to visualize especially the surface wave propagation a similar technique using a scanning system with a piezoelectric sensor is applied.
The results obtained provide an appropriate basis for the comparison with numerical results from 3-D Elastodynamic finite integration technique (EFIT) calculations, which is demonstrated here.
Examples are presented for the application with phased array ultrasonic echo, air-coupled ultrasonic echo and impact-echo.
Impact-Echo (IE) measurements on concrete structures with compact
dimensions are influenced by geometry effects, i.e. reflections especially of the
surface waves at the boundaries of the test object, which in fact can lead to
misinterpretation of the results. In contrast to the normal reflection arrangement, in
which the excitation and the measuring sensor are placed on the same side of the
specimen, measurements were carried out in a transmission arrangement, where the
impactor and the measuring sensor are placed opposite to each other. This serves to
reduce the influence of surface waves, and to investigate further their responsibility
for the existence of geometry effects. Results obtained from laboratory specimens
with smooth surfaces were still seriously affected by geometry effects. Numerical
simulations led to the conclusion that surface waves travel around the edges of the
specimen, thus creating geometry effects even on the opposite side. Measurements
on a specimen, which was cut out from a bridge structure and had irregular
connecting planes between the excitation and the measurement side, proved to be
remarkably less affected.
In order to analyze and visualize the surface wave propagation an arrangement is
used, in which the excitation is fixed at a certain point on one plane of the specimen.
A transducer scans all planes of the specimen in phase with the excitation. Time
slices show the instantaneous wave field on all planes of the specimen. These are
compared with numerical simulations. In particular, it can be proved that surface
waves indeed travel around the edges of a specimen with smooth connecting planes,
thus creating geometry effects even in the transmission arrangement.
Zur Charakterisierung von luftgekoppelten Ultraschallwandlern werden mehrere verschiedene Methoden und Verfahren angewendet. Durch die unterschiedlichen Herangehensweisen werden oft unterschiedliche Prüfkopfpara-meter und Schallfeldgrößen ermittelt, was einen direkten Vergleich von Datenblättern erschwert. Für die Charakterisierung von Kontakt- und Tauchtechnikprüfköpfen hat sich ISO 22232-2:2021 bereits etabliert, allerdings ist diese Norm nicht auf die luftgekoppelten Wandlertechnologien direkt übertragbar. Daher erkannten Hersteller, Forschungseinrichtungen und Anwender den Bedarf an einer Richtlinie zur einheitlichen Charakterisierung von luftgekoppelten Wandlern. Gemeinsam arbeiten sie aktuell im Rahmen des Unterausschusses „Luftgekoppelte Ultraschallprüfung“ der DGZfP an der Erstellung einer solcher Richtlinie mit dem Anspruch, die bestehende Normung um die luftgekoppelte Prüfung zu erweitern und somit die Vereinheitlichung der Charakterisierung dieser Wandler zu erleichtern.
In diesem Beitrag wird ein Überblick über den geplanten Inhalt der Richtlinie und über die Methoden zur akustischen Charakterisierung von luftgekoppelten Ultraschallwandlern gegeben. Insbesondere werden verschiedene Methoden der Ermittlung von wichtigen Wandlerparametern wie z.B. Empfindlichkeit, Mittenfrequenz, Bandbreite, Fokusgröße und Fokusabstand dargestellt und verglichen.
This guideline was drafted following and complementing the norm ISO 22232-2:2020(E) to include air-coupled ultrasonic transducers. This document specifies the characteristics of probes used for non-destructive air-coupled ultrasonic testing with center frequencies above 20 kHz, with focusing or without focusing means.
Since the beginnings of the European American Workshops (EAW) in 1997, the aim was to gather the experts in NDE reliability and discuss burning topics with the aim of identifying crucial problems and suggesting ways to move forward. This was usually achieved during the so-called break-out sessions, in which predetermined topics were discussed. During the 5th EAW, held in Berlin in 2013, this approach was replaced by an Open Space Technology (OST) approach. The benefit of this approach is seen in the freedom of topic choices, i. e., the topics are not predetermined but rather arise at that moment in that space and by the participants choice. The following topics arose: new reliability methods (Bayesian, MAPOD,
), structural health monitoring, definition of requirements of NDE by customer versus provider, what value of POD is good enough?, human factors, manual versus automated inspection, and basic concepts of reliability of NDE. The participants were encouraged to walk from one session to another and openly express their opinions. These were in the end summarized by a chosen group of moderators and presented in this paper.