TY - JOUR A1 - Schlick-Hasper, Eva A1 - Jahnke, Wolfgang A1 - Drousch, Björn A1 - Goedecke, Thomas A1 - Kraume, M. T1 - Experimental investigations concerning the sensitivity of the leakproofness test for dangerous goods packagings relating to the leak diameter JF - Packaging technology & science N2 - The objective of this experiment was to verify that in regards to the leakproofness bubble test for packagings of dangerous goods, a reduction of the air overpressure from 0.2 to 0.1 bar can be compensated for by reducing the water surface tension to a value of approximately 33.2 mN/m by adding a wetting agent. It was experimentally proven that this method will yield the same leak diameters. This is important to avoid irreversible deformations during the leaktesting of intermediate bulk containers (IBCs) while using a test overpressure of 0.2 bar. Bubble test experiments were carried out on artificial borehole-shaped leaks manufactured of two different materials high density polyethylene (HDPE) and stainless steel by ultrashort pulse laser technology and with two different immersion test liquids (deionized water and a 0.1% Lutensol FSA fabric softener active 10 solution). The characteristic diameters of the boreholes investigated were from 11.5 to 30.3 µm in length. KW - Dangerous goods packaging KW - Leakproofness test KW - Bubble test KW - Leak KW - Ultrashort pulse laser PY - 2014 DO - https://doi.org/10.1002/pts.2029 SN - 0894-3214 VL - 27 IS - 4 SP - 327 EP - 339 PB - Wiley CY - Chichester, UK AN - OPUS4-30502 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Kocinski, Lilianna A1 - Otremba, Frank A1 - Drousch, Björn T1 - Positions-Bestimmung - Versagensverhalten - Eine Beanspruchungsanalyse für Kunststoff-Kanister mittels der Finite Elemente Methode (FEM) könnte zur Vereinheitlichung der Fallprüfung und Vergleichbarkeit der Ergebnisse beitragen JF - Gefährliche Ladung PY - 2009 SN - 0016-5808 VL - 9 SP - 20 EP - 21 PB - Storck CY - Hamburg AN - OPUS4-19824 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Schlick-Hasper, Eva A1 - Bethke, John A1 - Jahnke, Wolfgang A1 - Drousch, Björn A1 - Goedecke, Thomas A1 - Kraume, M. T1 - Maximum gauge pressure in dangerous goods packagings under normal conditions of carriage - comparison of direct measurement and calculation JF - Packaging technology & science N2 - The objective of this work was to determine the maximum gauge pressure in the vapour phase above the liquid in different design types of dangerous goods packagings under normal conditions of carriage. The design types investigated were steel and plastic packagings with a volume of approximately 6 l. Two different methods were applied. In method 1, the pressure inside the packaging filled with a certain filling substance (dichloromethane) was directly measured under simulated conditions of carriage (degree of filling: 90%; filling temperature: 15°C; temperature during storage: 31°C). The maximum measured gauge pressures were between 89 mbar for a light plastic jerrican and 336 mbar for a steel drum. In method 2, the gauge pressure was calculated. The consideration of a rigid packaging combined with the assumption of a vapour pressure of zero during filling and sealing can serve as a worst case scenario. The calculated gauge pressure is approximately 1061 mbar. This procedure leads to the highest safety factor and does not require any experimental investigations. For a more realistic approximation of the gauge pressure of a non-rigid packaging, a packaging-specific function of relative expansion can be used, which is determined by a hydraulic pressure test. The calculated values ranged from 105 to 347 mbar. Method 2 provides conservative results. No hazardous filling substance is needed, and it allows a prediction of gauge pressure for other temperatures, substances and filling degrees. Therefore, this method could serve as alternative to UN Model Regulations 6.1.5.5.4 (a). KW - Dangerous goods packagings KW - Gauge pressure KW - Overpressure KW - Relative expansion KW - Data loggers KW - Normal conditions of carriage KW - Gefahrgutverpackungen KW - Überdruck KW - Relative Ausdehnung KW - Datenlogger KW - Normale Beförderungsbedingungen PY - 2015 DO - https://doi.org/10.1002/pts.2111 SN - 0894-3214 VL - 28 IS - 5 SP - 437 EP - 460 PB - Wiley & Sons, Ltd. CY - Chichester, UK AN - OPUS4-33108 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Schlick-Hasper, Eva A1 - Eiben, Mario A1 - Drousch, Björn A1 - Heinrich, Annika A1 - Goedecke, Thomas A1 - Kraume, M. T1 - Influence of the length of the internal sleeve valve on the release of powdery substances from the closures of valved bags for dangerous goods JF - Packaging Technology And Science N2 - In practice, checks on dangerous goods transports often detect leaks of powdered dangerous goods from valved bags. In this work, the influence factors of a sudden release of powdery substances from the valves of valved bags were investigated. Drop tests were performed on paper bags of UN design type 5M2 with internal sleeve valve using 2 different powdery substances (Esplas H130 and zinc oxide “Rotsiegel”). The internal sleeve valves of all test samples were not sift‐proof with respect to both filling substances. For almost all test samples, the Esplas H130 powder already leaked out of pasted joints during manual filling. This is a contradiction to the requirement in UN 6.1.4.18.1, according to which closures and joints of paper bags 5M2 should be sift‐proof. In the drop tests, longer valve lengths had a greater sealing effect for both filling substances (for filling degrees of at least 95% and for test samples which had already been mechanically loaded). As an extreme example, at the drop height of 1.20 m and a filling degree of 100%, the released amount of zinc oxide powder from a 10‐cm‐long valve was about 16 times higher than from a valve length of 12.5 cm. The valve length is therefore a safety‐relevant parameter and should be specified by the manufacturer. To ensure that only filling goods with similar physical properties in comparison with the test substance are used for valved bags, the user must be informed of the particle size of the test substance. KW - Sacks KW - Bags KW - Dangerous goods packagings KW - Drop test KW - Sift-proofness PY - 2018 DO - https://doi.org/10.1002/pts.2377 SN - 0894-3214 SN - 1099-1522 VL - 31 IS - 8 SP - 532 EP - 544 PB - John Wiley & Sons, Ltd. AN - OPUS4-45835 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - RPRT A1 - Duffner, Eric A1 - el Dsoki, Chalid A1 - John, Sebastian A1 - Schmidt, Anita A1 - Mair, Georg A1 - Loechner, Derek A1 - Drousch, Björn T1 - Sicherheitstechnische Bewertung thermischer Betriebsbelastung auf sicherheitskritische Ausrüstung am Beispiel von Composite-Atemluftflaschen und Lithiumbatterien N2 - Ziel des Vorhabens war es, den Einfluss der realen Temperaturbelastung auf Atemschutzflaschen und Lithiumbatterien in Funkgeräten (FG) im Löscheinsatz von Rettungskräften zu ermitteln und deren Auswirkung auf die Alterung und Lebensdauer sowie die potenziellen Gesundheitsgefahren bei deren Nutzung besser beurteilen zu können und Handlungshilfen abzuleiten. Im Rahmen dieses Vorhabens wurden zum einen unterschiedlich thermisch gealterte Composite-Atemluftflaschen systematisch hinsichtlich ihrer Restfestigkeiten untersucht. Zum anderen wurden Lithiumbatterien aus FG hinsichtlich der Einwirkung von kritischen Temperaturen untersucht, ab denen es zu einem thermischen Durchgehen der Batterien kommen kann. Für diese beiden wichtigen Komponenten, Lithiumbatterien und Composite-Atemluftflaschen, wurden kritische Temperatur-Zeit-Profile ermittelt, die Auswirkungen durch geeignete Methodiken untersucht und die sich ergebenden Gefährdungen für den Träger bewertet. Als Methodische Vorgehensweise wurden durch Realversuche die tatsächlichen und zuvor durch Literatur-recherche ermittelten Temperaturprofile verifiziert und auf deren Grundlage die Laborbelastungen abgeleitet. Um den Eigenschaften der aus Faserverbundwerkstoffen hergestellten Composite-Atemluftflaschen Rechnung zu tragen, wurden an zwei repräsentativen Baumustern unterschiedlicher Hersteller Stichprobengruppen unterschiedlicher thermischer Belastung ausgesetzt und hinsichtlich ihrer verbleibenden Restfestigkeitsabnahme geprüft und mit thermisch unbelasteten Baumustern verglichen. Neben den statischen Berstversuchen wurden auch kombinierte Alterungs- und Restfestigkeitsuntersuchungen an zyklisch belasteten Behältern durchgeführt. Die FG wurden thermisch sowohl statischen als auch zyklischen Belastungen ausgesetzt und mit Kapazitätsmessungen begleitet. Die statischen Versuche dienten dem Zweck, die maximale thermische Belastbarkeit der Akkus zu ermitteln, bei der noch kein Versagen auftritt. Bei den zyklischen Versuchen wurde der Temperaturverlauf bei Löscheinsätzen so nah wie möglich im Labor nachgestellt. Hierbei wurden die Akkus wiederholt einem Belastungsprofil mit konstanter Temperatur ausgesetzt und nach einigen Intervallen die Restkapazitäten am Akku gemessen und so die Degradation bestimmt. Als Fazit der im Rahmen dieses Vorhabens durchgeführten Untersuchungen an zwei repräsentativen Baumustern von Atemschutzflaschen kann gefolgert werden, dass die thermischen Belastungen abhängig vom Baumuster einen z.T. deutlichen Einfluss auf die Restfestigkeiten der Atemschutzflaschen haben. Höhere thermische Exposition ist, zumindest an den untersuchten Atemschutzflaschen, deutlich zu erkennen und die Flaschen können durch die zuständigen Gerätewarte leicht ausgesondert und ersetzt werden. Die thermischen Belastungen, wie sie im Rettungseinsatz auftreten, waren für die untersuchten Atemschutzflaschen und die Rettungskräfte nicht kritisch sind. Die langjährige Erfahrung etablierter Hersteller dürfte hier aber nicht ohne Einfluss sein. Es ist somit kein Grund erkennbar, von der Verwendung der leichteren Typ 4 Atemschutzflaschen abzuraten, wenn Atemschutzflaschen, die visuell erkennbare thermische Einwirkungen (Farbänderungen, Materialschmelzungen o.ä.) aufweisen, unmittelbar ersetzt werden. Die Ergebnisse an den FG zeigen, dass trotz hoher Temperaturen keine Selbstentzündung der Lithiumbatterien ausgelöst wird. Der Kapazitätsverlust der Batterien infolge der Belastung führt ebenfalls nicht zu einem Funktionsausfall. Es konnte gezeigt werden, dass die Kapazitätsbestimmung als zuverlässiges und geeignetes Kriterium für die Sicherheitsbewertung der Akkus herangezogen werden kann, wenn die Kapazitätsmessung bei gleichbleibenden Bedingungen (gleiche Raumtemperaturen, gleiche Messgeräte, etc.) stattfindet. Es wird empfohlen, die Akkus ab einer Restkapazität von unter 80% zu tauschen. Als schnelle und sehr einfache Überprüfung kann eine Sichtprüfung an den FG stattfinden. Die im Projekt verwendeten FG zeigten eine Verformung der Kunststoffhülle bei zu hohen Belastungen. N2 - The aim of the project was to determine the influence of the real temperature load on breathing apparatus cylinders and Lithium batteries in radio devices in firefighting operations by rescue services and to be able to better assess their effect on ageing and service life time as well as the potential health hazards and to derive guidelines for action. As part of this project, composite breathing air cylinders that had undergone different thermal ageing processes were systematically analysed with regard to their residual strength. as a second use case, lithium batteries used in radio devices were analysed with regard to the effect of critical temperatures above which thermal runaway of the batteries can occur. Critical temperature-time profiles were determined for these two important components, lithium batteries and composite breathing air cylinders, the effects for the user were analysed using suitable methods and the resulting hazards for the wearer were assessed. As a methodical approach, the actual temperature profiles previously determined by literature research were first verified in real tests and the laboratory loads were derived on this basis. In order to take into account the properties of composite breathing air cylinders made of fibre composites, sample groups were subjected to different thermal loads and examined with regard to their residual strength reduction and in comparison to thermally unloaded samples from two representative samples from different manufacturers. In addition to the static burst tests, combined ageing and residual strength tests were also carried out on cyclic loaded cylinders. The radio devices were subjected to both static and cyclic thermal loads with accompanying capacity measurements. The purpose of the static tests was to determine the maximum thermal load capacity of the batteries at which no failure occurs. In the cyclic tests, practical conditions were simulated as closely as possible in the laboratory. For this purpose, the batteries were repeatedly subjected to a load profile at a constant temperature and the residual capacity of the battery was measured after several intervals to determine the degradation. As a conclusion of the tests carried out on two representative types of breathing apparatus cylinders as part of this project, it can be concluded that the thermal loads have a sometimes significant influence on the residual strength of the breathing apparatus cylinders, depending on the type. Higher thermal exposure is clearly recognizable, at least on the breathing apparatus cylinders tested, and the cylinders can be easily remove and replaced by the responsible equipment maintainers. The thermal loads that occur during rescue operations were not critical for the tested breathing protection cylinders and the rescue teams. However, the many years of experience of established manufacturers should not be without influence here. There is therefore no reason to advise against the use of the lighter Type 4 breathing protection breathing apparatus cylinders if cylinders with visually recognizable thermal effects (color changes, material melting, etc.) are replaced immediately. The results on the radio devices showed that determination of the capacity can serve as a suitable criterion for the safety assessment for the batteries. The loss of capacity of the batteries as a result of the load also does not lead to a functional failure. The capacity determination can be used as a reliable and suitable criterion for the safety assessment of the batteries if the capacity measurement is carried out under constant conditions (same room temperatures, same measuring devices, etc.). It is recommended to replace the batteries when the remaining capacity is below 80%. A visual inspection of the radio devices can be carried out as a quick and very simple check. The radio devices used in the project showed deformation of the plastic casing when subjected to excessive loads. KW - Composite KW - Atemluftflaschen KW - Litiumbatterien KW - Funkgeräte KW - Thermische Belastung KW - Rettungskräfte KW - Feuerwehr KW - PSA KW - DGUV PY - 2024 UR - https://www.dguv.de/ifa/forschung/projektverzeichnis/ff-fp0462.jsp N1 - Abschlussbericht zum Vorhaben mit der Projekt-Nr. FF-FP 0462 (CoLiBri), Laufzeit 01.03.2021–29.02.2024, Bericht vom 15.04.2024 SP - 1 EP - 66 PB - Deutsche Gesetzliche Unfallversicherung (DGUV) CY - Berlin AN - OPUS4-59877 LA - deu AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER -