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Eingeladener Vortrag
- nein (1103)
Ancient papyri are a written heritage of culture that flourished more than 3000 years ago in Egypt. One of the most significant collections in the world is housed in the Egyptian Museum and Papyrus Collection in Berlin, from where the samples for our investigation come. The papyrologists, curators and conservators of such collections search intensely for the analytical detail that would allow ancient papyri to be distinguished from modern fabrications, in order to detect possible forgeries, assess papyrus deterioration state, and improve the design of storage conditions and conservation methods. This has become the aim of our investigation. The samples were studied by a number of methods, including spectroscopic (FTIR, fluorescent-FS, Raman) diffractional (XRD) and chromatographic (size exclusion chromatography-SEC), selected in order to determine degradation parameters: overall oxidation of lignocellulosic material, degree of polymerization and crystallinity of cellulose. The results were correlated with those obtained from carefully selected model samples including modern papyri and paper of different composition aged at elevated temperature in humid air. The methods were classified in the order SEC > FS > FTIR > XRD, based on their effectiveness in discriminating the state of papyri degradation. However, the most trustworthy evaluation of the age of papyri samples should rely on several methods.
Nanotechnology at BAM
(2017)
Der Vortrag stellt Grundlagen und Anwendungen der industriellen Durchstrahlungsprüfung vor. Ausgehend von den Röntgenfilmen und ihren Eigenschaften werden moderne Technologien zum Filmersatz erläutert. Das sind die Computerradiographie mit Speicherfolien oder digitale Matrixdetektoren (DDA). Zentrale Frage in der industriellen Radiographie ist die erreichbare Bildqualität. Als Anwendungen werden die Korrosionsprüfung von Rohrleitungen mit CR und die Hoch-Kontrastempfindlichkeits-Radiographie mit DDAs präsentiert.
Recent developments of photon counting and energy discriminating detectors for radiographic testing
(2017)
The direct detection of X-ray photons into electrical signals is enabled by usage of highly absorbing photo conducting materials (e.g. CdTe) as detection layer of an underlying CMOS semiconductor X-ray image detector. If the read-out speed is high enough (ca. 50 – 100 ns dead time) single X-ray photons can be counted and their energy measured. Read-out noise and dark image correction can be diminished. By setting energy thresholds, selected energy ranges of the X-ray spectrum can be detected or suppressed. This allows material discrimination or reduction of scattered radiation, which results in an enhanced contrast sensitivity.
In granular soils, long-term cyclically loaded structures can lead to an accumulation of irreversible strain by forming closed convective cells in the upper layer of the bedding. The size of the convective cell, its formation and grain migration inside this closed volume have been studied with reference to different stiffness of the embedded structure and different maximum force amplitudes applied at the head of the structure.
This relation was experimentally investigated by applying a cyclic lateral force to a scaled flexible vertical element embedded in a dry granular soil. The model was monitored with a camera in order to derive the displacement field by means of the PIV technique. Furthermore, the ratcheting convective cell was also simulated with DEM with the aim of extracting some micromechanical information. The main results regarded the different development, shape and size of the convection cell and the surface settlements.
Im deutschen Eisenbahnnetz sind ca. 80 Millionen Spannbetonschwellen verbaut. Analog zu anderen Bauwerken werden Wpannbetonschwellen regelmäßig visuell inspiziert. Die Rissbildung ist bei diesen Inspektionen ein Kriterium für die Schädigung einer Spannbetonschwelle. Durch Rissbildung kann es passieren, dass Betonschwellen ihre Nutzungsdauer nicht erreichen.