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Organisationseinheit der BAM
Eingeladener Vortrag
- nein (34)
High performance composites and other light weight materials are generally a comple problem to the performance of nondestructive testing methods. X-ray refraction provide unconventional X-ray scattering techniques to meet the actual demand for improve nondestructive characterization of these advanced materials. Scanning the samples across collimated narrow incident X-ray beam permits to image integral micro-structures (a present) with a resolution of 10 µm. Investigations of samples after strain-induced micro cracks and fibre debonding in impact damaged epoxy are shown.
The physics of X-ray refraction are analogous to the well known refraction of light b optical lenses and prisms, governed by Snell's law. The special feature is the deflection a very small angles of few minutes of arc, as the refractive index of X-rays in matter i nearly one. Due to the density differences at inner surfaces most of the incident X-rays ar deflected. As the scattered intensity of refraction is proportional to the specific surface of sample, a reference standard gives a quantitative measure for analytical determinations.
Figure 1 represents a two-dimensional damage distribution of an impact in a 0/90° CFR laminate of 3 mm, thickness. Unlike in ultrasonic testing, there is no shadowing effect o the successive layers. By use of X-ray refraction the exact concentration of debonde fibres is calculated for each position. Additionally the refraction allows the selection of th fibre orientation.
X-Ray Refraction Techniques
(2005)
Quantitative X-ray refraction topography is applied for improved nondestructive evaluation of advanced high performance ceramics. The method is based on X-ray small angle scattering by refraction of X-rays due to density differences of microstructures in heterogeneous materials. It determines the amount of inner surfaces and interfaces within the range of µm to nm dimensions. As the scattered refraction intensity is proportional to the inner surface density of a sample, a reference standard gives a quantitative measure for analytical requirements. X-ray refraction scanning topography visualizes integral interface properties at 10 µm spatial resolution by two-dimensional computer images. Characteristic microstructure parameters, i.e. density fluctuation, porosity and pore size distribution of several examples of SiO[2]-and SiC ceramics at different stages of sintering are presented.
Kohlenstofffaser verstärkte Kohlenstoffe werden während ihres Ge-brauches an Luft zwischen 600°C und 1000°C korrodiert. Um zu überprüfen, ob die Röntgerefraktionsmethode als zerstörungsfreies Prüfverfahren die bei der Oxidation auftretenden morphologischen Änderungen im Probekörper signifikant nachweisen können, wurden bei 630°C oxidativ geschädigte gasphaseninfiltrierte C/C Kerami-ken untersucht. Anhand eines Kugelmodells werden die aus dem Experiment ableit-baren Größen der spezifischen Oberfläche und Porosität erläutert. Die experimen-tellen Ergebnisse konntne nachweisen, dass infiltrierten C/C Keramiken während einer oxidativen Belastung aufgrund des lokal unterschiedlichen Oxidationsverhal-tens eine ausgeprägte Kern Schale Struktur ausbilden.