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Overview of ongoing research and future prospects on polyethylene neutron shielding materials at bam
(2023)
The extension of the interim storage period of radioactive waste before disposal will cause additional challenges for the nuclear waste management in Germany, so that an extensive knowledge of the long-term performance of casks, including their components and inventories, will be required for future extended storage licenses.
Ultra-high and high molecular weight polyethylenes ((U)HMW-PE) are used for neutron shielding purposes in casks for storage and transport of spent fuel and high-level waste due to their extremely high hydrogen content. During their service life of several decades as cask components, the PE materials are exposed to neutron and gamma radiation from the radioactive inventory of the casks, mechanical assembling stresses and temperature. All these combined effects affect the material properties of such components which in turn may be crucial for some possible accident scenarios.
At the Bundesanstalt für Materialforschung und -prüfung (BAM), the effects of high temperature exposure in combination with subsequent or previous irradiation were investigated with a comprehensive aging program including thermal aging at 125 °C for different aging periods up to 5 years and irradiation with doses ranging from 50 to 600 kGy.
This contribution provides an overview of the ongoing research related to the structural changes of (U)HMW-PE induced by gamma irradiation and high temperature exposure and focuses on current research perspectives at BAM with regard to the prediction of the dynamic behavior of the material during extended interim storage in case of an accident scenario. First results of the coupled effect of temperature, radiation and mechanical loading will be presented. The effect of microstructural changes induced by gamma irradiation and high temperature on the mechanical behavior of (U)HMW-PE will be assessed.
Surface modification of mild steel was undertaken using two covered electrodes and two tubular electrodes. The two covered electrodes are DIN 8555: E6-UM-60 and E10-UM-60GR; however, the two tubular electrodes are E10-GF-60GR1 and E10-GF-60GR2. Chemical analysis for the weld metal and XRD of the flux covering for covered electrodes and flux core for tubular electrodes were conducted. The most important factor in determining the wear resistance is the microstructure of the deposit layers. In similar carbon equivalent electrodes E10-UM-60GR and E10-GF-60GR1, electrode E10-GF-60GR1 (tubular) shows larger carbides area fraction and better wear resistance than electrode E10-UM-60GR (covered). This could be attributed to a lower dilution associated with tubular electrode compared with covered electrode. The two tubular electrodes showed higher wear resistance than the covered electrodes which is mainly due to the larger Fe-Cr carbide precipitation area fraction.
Grain refinement is an important possibility to enhance the mechanical properties such as strength, ductility and toughness of aluminium weld metal. In this study, grain refinement was achieved through the addition of commercial grain refiner Al Ti5B1 to gas tungsten arc weld metal of the aluminium alloys 1050A (Al 99.5) and 5083 (Al Mg4.5Mn0.7). The grain refiner additions led to a significant reduction of the weld metal mean grain size (Alloy 1050A, 86 %; Alloy 5083, 44 %) with a change in grain shape from columnar to equiaxed. Tensile tests showed for Alloy 5083 that the weld metal's ductility can be increased through grain refinement. No improvement in weld metal strength (i.e. yield strength and ultimate tensile strength) was observed. Furthermore, tear tests with notched specimens revealed that the resistance against initiation and propagation of cracks in the weld metal can be enhanced through grain refinement. The toughness was observed to increase clearly by grain refinement in weld metal of commercial pure Al (Alloy 1050A). In Alloy 5083 weld metal, the toughness was not improved through grain refinement, likely because of a semi-continuous network of brittle intermetallic phases that facilitate crack propagation.
Für die Berechnung des Crashverhaltens von Fahrzeugstrukturen muss zusätzlich zur Dehnratenabhängigkeit des plastischen Verformungsverhaltens des Grundwerkstoffs auch das Verhalten von Fügestellen bei hoher Beanspruchungsgeschwindigkeit bestimmt werden. Ziel der VDEh-Arbeitsgruppe 'Hochgeschwindigkeitszugversuche an gefügten Stählen' war die Erstellung eines Stahl-Eisen-Prüfblattes (SEP) zur Ermittlung crashrelevanter Kennwerte für gefügte Stahl-Feinbleche unter vereinheitlichten Prüfbedingungen. Zur Erarbeitung der in dieser Richtlinie zu formulierenden Empfehlungen wurden Scherzugversuche bei hoher Geschwindigkeit an punktgeschweißten und lasergeschweißten Proben von elf Prüflaboratorien durchgeführt. Der Beitrag beschreibt die Ergebnisse dieses Ringversuchs und seine Auswirkungen auf das SEP.
End of November 2005 strong south-west wind and heavy snowfall were predominant in the region Münsterland, north-western part of Germany. This led to accretion of a considerable quantity of wet snow to overhead electrical lines in form of snow rolls on the conductors. Eighty-two transmission towers failed catastrophically, most of them by buckling, however some by brittle fracture. As a consequence nearly 250,000 people have been cut off from electrical power supply for several days with major media attention.
This paper describes the forensic analysis in order to investigate the failure cause. Therefore extensive materials investigations, mechanical testing of original components and specimens thereof, estimations for the real wind and snow loads and their combinations, structural analyses as well as detailed evaluations on the basis of previous investigations, literature and regulations were conducted. It was revealed that some of the examined components were manufactured from Thomas steel which was partially in embrittled condition. The investigated towers fulfilled the design codes valid at the time of erection. However the present line loads of the wet snow rolls on the conductors exceeded by far the ones given in the design codes valid at that time.
The load case leading to failure was reconstructed by the derived positions of loads mainly caused by unequal and asymmetric distribution of snow rolls on left and right electrical system. The loads and corresponding stresses acting on the structure before failure were estimated. By comparison with the fracture forces from mechanical testing of original members of the collapsed tower the component that primarily failed was localised. The primary fracture occurred on a diagonal member under tension made of Thomas steel which was weakened by embrittlement. The failure cause was a combination of heavy weather conditions (storm, approx. 0 °C and wet snowfall leading to heavy snow rolls on conductors), asymmetric loading conditions and the usage of Thomas steel which was partially embrittled. Finally, recommendations for avoiding future failures are given.
Am 9. Juli 2008 entgleiste ein Hochgeschwindigkeits-Triebzug der Baureihe 403, ICE3, bei der Ausfahrt aus dem Kölner Hauptbahnhof. Ursache dafür war der Schwingbruch einer Radsatzwelle. Im Auftrag der Staatsanwaltschaft Köln untersuchte die BAM die Schadensteile, insbesondere die gebrochene Treibradsatz-Hohlwelle.
Zunächst wurden das Drehgestell, der Antriebsstrang, die Räder, die Bremsen und die gebrochene Radsatzwelle visuell untersucht und deren Zustand dokumentiert.
Anschließend erfolgte die zerstörungsfreie Prüfung der beiden Bruchstücke der Hohlwelle mit teilmechanisierter Ultraschall-Handprüfung.
Vor der Zerlegung der Radsatzwelle wurden ausgewählte Maße kontrolliert und die Oberfläche eingehend untersucht. Nach der Probenahme und Präparation wurden die relevanten spezifizierten Eigenschaften des Wellenwerkstoffs überprüft.
Mittels Bruchflächenanalyse konnte die Startstelle des Schwingrisses lokalisiert, aufgrund der starken Sekundärschäden auf der Bruchfläche und an den Bruchkanten jedoch nicht direkt ausgewertet werden. Durch die Kombination von Mikro-Computertomographie und Ultraschall-Tauchtechnik wurden u. a. nahe der Schwingriss-Startstelle Inhomogenitäten erkannt, die durch metallographische Zielpräparation als nichtmetallische Einschlüsse identifiziert wurden. Die Größe dieser Einschlüsse ist gemäß gefordertem Reinheitsgrad unzulässig. Vergleichbare Einschlüsse in diesem hochbeanspruchten Bereich der Radsatzwelle haben vermutlich den Schwingriss initiiert.