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- Gefahrgutverpackungen (4)
- Dangerous goods (3)
- Helium (3)
- Compression (2)
- Dichtheit (2)
- Dichtheitsprüfung (2)
- Glaskapillaren (2)
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- Laminare Strömung (2)
Organisationseinheit der BAM
Was ist wie und wo geregelt?
(1995)
Rechtliche Rahmenbedingungen
(1996)
Stand der Normung
(2002)
The purpose of this article is to demonstrate how the position of a package affects the results in guided and unguided compression tests. Digital image correlation (DIC) shows how localized stresses occur. The positions of the jerricans were moved 1 cm in every direction from the center. The different positions showed how guided and unguided compression applied different loads to thejerrican.
Furthermore, the guided and unguided compressions were compared directly using DIC to show how areas of stress concentrations formed and the localized stress changed. In general, when testing the jerricans with unguided compression, the swivel platen tilted backwards because the rear side of the jerrican was not as stiff as the front side with the lid. Guided and unguided compression tests will give different results because the stress concentrations are different. The position of the jerrican in the stacking test has drastic affects on the outcome of the fest. The stresses between the jerrican bottom and stacking plate were analyzed with a sensor mat and compared the guided and unguided loads.
Guided and unguided compression tests were performed on jerricans and small and large corrugated fiberboard boxes. The different methods produced different results affecting whether the test was passed
or failed.
The project SIGRID investigates and assesses possibilities to enhance the safety and security of
dangerous goods transports through the use of the latest RFID-technology. This technology can be used to
greatly enhance the transparency of the supply chain and aid logistics companies in complying with regulations.
In the context of SIGRID, customized RFID-Sensor-Tags have been developed that monitor dangerous
goods during transport and help to prevent hazards by allowing timely countermeasures. In the case of a dangerous
goods accident, the available information about the type, amount and condition of the dangerous goods
can be used to accurately inform the relief forces. Unavailable or inaccurate information represents a significant
problem for the relief forces. This often leads to a delay in the rescue operation, because relief forces
must be aware of the substances involved to protect themselves effectively against them. SIGRID aims to
close this information gap. To verify the practicability of the underlying concepts, a demonstrator will be
build and tests of realistic scenarios will be conducted.
Ziel einer Dichtheitsprüfung ist es entweder, mit einem quantitativen Prüfverfahren integrale Leckageraten zu messen, oder mittels eines lokalisierenden Verfahrens den genauen Leckageort aufzuspüren.
In einigen Fällen kann das Betriebsmedium gleichzeitig das Prüfmedium sein, wenn geeignete Sensorik zu Verfügung steht. In anderen Fällen kann dies aus unterschiedlichen Gründen nicht möglich sein. Daher ersetzt man bei der Verwendung von Prüfgasverfahren das Betriebsmedium durch ein spezifisch nachweisbares Prüfgas.
Für die Interpretation eines quantitativen Messergebnisses ist es notwendig, die Ist-Leckagerate mit einer zuvor berechneten Grenzleckagerate (maximal zulässige Leckagerate) zu vergleichen. Entspricht das für die Dichtheitsprüfung verwendete Prüfgas nicht dem Betriebsmedium, so ist hierfür eine Umrechnung von Leckageraten notwendig.
Es wird ein Überblick über für die Dichtheitsprüfung gängige Prüfgase, deren Eigenschaften sowie Vor- und Nachteile gegeben. Die grundlegenden Prinzipien bei der Umrechnung von Leckageraten (Druckumrechnung; Temperaturumrechnung; Umrechnung der Gasart bzw. des Mediums) werden vorgestellt.
Jerrycans made from three different types of high-density polyethylene (HDPE) were exposed outdoors, for one Berlin summer season. They were filled with a 55 percent nitric acid solution (HN03), pure water, or air, and half of them were protected from sunlight by an UV absorbing canvas. Thus, the separate effects of UV radiation and nitric acid could be compared to the combined impact. Combined impact was mainly affected by decomposition of nitric acid, resulting in presence of reactive nitrogen oxides, increased oxygen partial pressure, and UV radiation energy, simultaneously in vapour phase.
To investigate the degradation effects after the outdoor exposure, jerrycans were exposed to a so called hydraulic internal pressure test, similar to an approval test for dangerous goods packaging. After combined impact of UV radiation and nitric acid, internal pressure tests showed very fast failures, whereas after separate impacts no remarkable deteriorations were observed, compared to unaged jerrycans.
The combination of radio-frequency identification (RFID) tags with different types of sensors offers excellent potential for applications with regard to identification, diagnosis, and monitoring. This should be demonstrated by means of two examples of actual developments carried out by the Federal Institute for Materials Research and Testing (BAM). The Identification and diagnosis of concrete components is a major task in the maintenance of critical infrastructure, for instance concrete bridges with heavy traffic volume. A feasibility study investigates the application of RFID sensor systems for this task. The second example reviews the transportation of dangerous goods. Using modern technologies enables promising possibilities to reduce accidents and to avoid non-conformity with transportation regulations. Project results demonstrate an innovative technical solution for monitoring of dangerous goods transports with RFID sensor systems.