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Organisationseinheit der BAM
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Eingeladener Vortrag
- nein (122)
Modern wind turbine rotor blades consist of sandwich shell segments made from glass fiber reinforced polymers. During manufacturing, defects can arise which could lead to failure of the whole component under dynamic mechanical and thermal loads. Hence during operation defects can arise which, if detected, can be repaired locally and in-situ by applying repair patches instead of taking the whole rotor blade down and repair it remotely. This method is much more time and cost effective, since the shut-down time of the energy converter is limited to a minimum. These repair patches can, however, also lead to new defects if not applied optimally. Therefore, it is necessary to control the quality of the repair patches to ensure the best possible restoration of structural integrity of the component. As a rotor blade is an object with a large aspect ratio, X-ray laminography is predestined to provide 3D information of the objective volume. To enhance the amount of information gained from laminographic reconstruction, we use in this study a photon counting and energy discriminating X-ray detector and apply a material decomposition algorithm to the data. By inherently separating the incident spectra within the detection process into two distinct energy bins, the basis material decomposition can provide material resolved images. Choosing glass and epoxy resin as basis materials and numerically solving the inverse dual-energy equation system, the reconstructed laminographic datasets contain highly valuable information about the distribution of the basis materials within the structure. Furthermore, cross- artifacts arising from the limited angle of the projection data can be reduced by this method which allows to investigate structures that were hidden underneath the artefacts.
Modern wind turbine rotor blades consist of sandwich shell segments made from glass fiber reinforced polymers. During manufacturing, defects can arise which could lead to failure of the whole component under dynamic mechanical and thermal loads. Hence during operation defects can arise which, if detected, can be repaired locally and in-situ by applying repair patches instead of taking the whole rotor blade down and repair it remotely. This method is much more time and cost effective, since the shut-down time of the energy converter is limited to a minimum. These repair patches can, however, also lead to new defects if not applied optimally. Therefore, it is necessary to control the quality of the repair patches to ensure the best possible restoration of structural integrity of the component. As a rotor blade is an object with a large aspect ratio, X-ray laminography is predestined to provide 3D information of the objective volume. To enhance the amount of information gained from laminographic reconstruction, we use in this study a photon counting and energy discriminating X-ray detector and apply a material decomposition algorithm to the data. By inherently separating the incident spectra within the detection process into two distinct energy bins, the basis material decomposition can provide material resolved images. Choosing glass and epoxy resin as basis materials and numerically solving the inverse dual-energy equation system, the reconstructed laminographic datasets contain highly valuable information about the distribution of the basis materials within the structure. Furthermore, cross- artifacts arising from the limited angle of the projection data can be reduced by this method which allows to investigate structures that were hidden underneath the artefacts.
The simulator aRTist combines analytical and Monte Carlo methods to efficiently model the radiographic process of industrial radiology. In this contribution we focus on virtual computer tomography, the simulation of tomographic scans. The possibilities to simulate complex scanning trajectories are shown in combination with the tomographic reconstruction using individual projection matrices.
Virtual CT acquisition and reconstruction of complex and noisy scanning trajectories in aRTist
(2019)
In modern CT imaging, simulation has become an important tool to minimize cost- and time-intensive measurements. It is increasingly used to optimize techniques for complex applications, to support the preparation of written procedures, and for educational purposes. We extended the CT simulation software ‘aRTist’ with a module to set-up arbitrary trajectories including disturbing influences during the scan. Moreover, such geometric deviations can be compensated by the internal reconstruction tool.
Die thermografische ZfP basiert auf der Wechselwirkung von thermischen Wellen mit Inhomogenitäten. Diese Inhomogenitäten hängen mit der Probengeometrie oder der Materialzusammensetzung zusammen. Obwohl die Thermografie für ein breites Spektrum von Inhomogenitäten und Materialien geeignet ist, ist die grundlegende Einschränkung die diffuse Natur der thermischen Wellen und die Notwendigkeit, ihre Wirkung lediglich an der Probenoberfläche radiometrisch messen zu können. Die Ausbreitung der thermischen Wellen von der Wärmequelle über die Inhomogenität zur Detektionsoberfläche führt zu einer Verschlechterung des räumlichen Auflösungsvermögens der thermografischen Technik. Ein neuer konzertierter Ansatz auf Basis einer räumlich strukturierten Erwärmung und einer Joint Sparsity des Signalensembles ermöglicht eine verbesserte Rekonstruktion von Inhomogenitäten.
Im Beitrag wird die Implementierung dieses Ansatzes auf Basis einer strukturierten Beleuchtung mit einem 1D-Laser-Array vorgestellt. Die einzelnen Emitterzellen des Laser-Arrays werden durch ein pseudozufälliges Binärmuster gesteuert und zusätzlich leicht verschoben. Die wiederholte Messung dieser verschiedenen Konfigurationen bei gleichzeitig konstanter Inhomogenität ermöglicht eine Rekonstruktion der Inhomogenität unter Ausnutzung der Joint Sparsity.
Im weitverbreiteten Fall der thermografischen ZfP sollen Defekte im Probeninneren detektiert werden. Da diese eine Inhomogenität darstellen, genügt jegliche Mess- und Datenverarbeitungstechnik, die diese Inhomogenität als Kontrast in der transienten Temperaturverteilung herausarbeitet. Ein üblicher Ansatz ist eine extrem kurze und intensive Blitzlampenbeleuchtung zusammen mit einer nachträglichen Fourier-Transformation zu verwenden. Für die zusätzliche Tiefenbestimmung werden entweder rein phänomenologische Ansätze, semi-analytische Ansätze mit Kalibrationsmessungen oder Fits an analytische bzw. numerische Modelle verwendet. Ein üblicher semi-analytischer Ansatz ist z.B. die Analyse des Abknickens der transienten Abkühlkurve. Problematisch ist das schnelle Abklingen der Amplitude auf Rauschniveau und damit die inhärente Beschränkung der Tiefenreichweite. Eine äquivalente Beschreibung der Wärmeleitung ist über sehr stark gedämpfte thermische Diffusionswellen möglich. Die Eindringtiefe ist dann gleich der thermischen Diffusionslänge. Der semi-analytische Ansatz über normales Least-Squares-Fitting funktioniert für 1D-Schicht-Systeme sehr gut, versagt aber für höherdimensionale Messprobleme. Genau hier setzt eine seit Kurzem bekannte Transformation der diffusen Temperaturentwicklung (bzw. des Realteils der Diffusionswelle) in eine propagierende virtuelle Temperaturwelle an. Dieses sog. Virtual-Wave-Konzept stellt sich selbst als ein weiteres inverses Problem dar. Der Nutzen dieser in einer linearen virtuellen Zeitdomäne propagierenden Welle überkompensiert den numerischen Mehraufwand jedoch deutlich. Zusammen mit neuen Technologien in der Erwärmung durch Hochleistungs-Laser-Arrays und in der Datenakquisition durch kHz-Kameras erlaubt dieser Ansatz eine signifikante Verbesserung der Tiefenreichweite in der Impuls-Thermografie. Im Beitrag werden experimentelle Ergebnisse an einer additiv hergestellten Metallprobe mit überdeckten Schlitzen vorgestellt, die eine Detektion dieser Defekte bis zu einem Seitenverhältnis von Defektbreite/Defekttiefe ~ 0,25 erlauben, also ca. 4 mal tiefer als die übliche Faustformel.
Usability of the written procedures: an eye tracking study Non-destructive evaluation (NDE) is regarded as one of the key elements in ensuring quality of engineering systems and their safe use. A failure of NDE to detect critical defects in safety-relevant components, such as those in the nuclear industry, may lead to catastrophic consequences for the environment and the people. NDE inspection procedure is one of the most important tools in the everyday life of an NDE inspector. Experience and research studies have shown that NDE procedures are not always used as foreseen and may need to be optimized. Both the content and format play an important role in producing reliable procedures. Whereas the content aids in the understanding of the task and in its subsequent correct execution, the format determines the efficiency and frequency of the procedure’s use.
For the purposes of this study, an inspection procedure - designed to be used in the inspection of components used in the final disposal of spent nuclear fuel - was further developed by adopting a user-centered design. This was achieved by following the eye movements during a data evaluation task whilst using the procedure, by interviews and group discussions, accompanied by a review from a human factors’ perspective, the suggestions from relevant literature and by reiterating the entire process once again. This process resulted in identifying shortcomings and in suggesting alterations to the existing procedure. The newly created procedure was empirically tested for its usability using eye tracking. By comparing the old instruction format to the newly developed one, the results showed that appropriately highlighting warnings, exceptions, or reminders, and placing them at a logical position assures that they will be read and identified with ease rather than overlooked. The presentation of the information in a stepwise manner, with one action per step, allows the user to follow more easily the steps that must be carried out to save time and effort.
This study - the first of its kind in the field of non-destructive evaluation - showed that the procedure can be improved by applying human factors principles to the design and by involving the users into the process of procedure development and quality assurance.
Introduction of the speaker – Marija Bertovic
Marija Bertovic has a degree in psychology and a PhD in human factors. Since 2006 she has been working on topics related to human factors in non-destructive testing at the BAM Federal Institute for Materials Research and Testing, German Society for Non-Destructive Testing and as an independent consultant. The focus of her research has been on identifying and studying human factors’ related risks during NDT inspections and suggesting ways of optimizing the inspections and inspection procedures. She is currently a research staff member at BAM responsible for probabilistic safety and reliability analyses AND human factors analyses. She is the chairwoman of the German Society for Non-Destructive Testing’s (DGZfP) subcommittee on human machine interaction and the winner of the DGZfP Science Award in 2018.
Das elektromagnetische Radarverfahren ist mit seiner starken Sensitivität für Wasser längst eine etablierte Methode zur zerstörungsfreien Feuchtemessung. Besonders bei geophysikalischen Aufgabenstellungen erfreut es sich großer Beliebtheit, doch auch an Baustoffen wird es immer häufiger zur Ortung von schadensträchtigem Wasser eingesetzt. Somit liefert die Literatur bereits zahlreiche Signalmerkmale, welche einen Rückschluss auf die Feuchte des untersuchten Mediums zulassen. Die Eignung dieser Signalmerkmale zur Messung an Estrichen wurde in Laborstudien anhand des Austrocknungsprozesses nach der Herstellung untersucht. Hierbei kamen zement- und anhydritgebundene Estriche unterschiedlicher Schichtdicke zum Einsatz, wobei die Darr- und die Calciumcarbid-Methode als Referenzverfahren dienten. In der Auswertung erwiesen sich besonders die klassischen Merkmale aus dem Zeitbereich (Amplitude, Laufzeit) als robuste Methoden zur Feuchtemessung. Bei kleinen Schichtdicken und niedrigen Feuchtegehalten ist die Auswertung der klassischen Merkmale jedoch fehleranfällig, v.a. weil die (automatisierte) Separierung von direkter und Reflexionswelle nicht mehr eindeutig ist. Dies wirkt sich besonders auf die jeweiligen Frequenzanteile aus, die i.d.R. nicht zu den klassischen Feuchte-Merkmalen gehören. In weiterführenden Untersuchungen soll der Mehrwert durch multivariate Datenauswertung und Ansätze des maschinellen Lernens geprüft werden. Übergeordnetes Ziel ist der Einsatz des Radarverfahrens an geschichteten Fußbodenaufbauten zur automatisierten und zerstörungsfreien Lokalisierung von Feuchteschäden.
Additiv gefertigte Prüfkörper aus Polyamid 12 (Laser Sinter Verfahren) und Acrylnitril-Butadien-Styrol (Fused Layer Modeling Verfahren) wurden über 2000 Stunden künstlich bewittert und ihr Alterungsverhalten untersucht. Die Ergebnisse wurden anschließend mit denen von Prüfkörpern verglichen, welche auf dieselbe Weise künstlich bewittert, aber mittels konventionellem Kunststoff-Spritzguss hergestellt wurden.
Die Erkenntnisse dienen für die Entwicklung einer Strategie für eine Qualitätskontrolle von additiv gefertigten Kunststoffteilen.