Filtern
Erscheinungsjahr
Dokumenttyp
- Vortrag (89)
- Beitrag zu einem Tagungsband (50)
- Zeitschriftenartikel (30)
- Posterpräsentation (8)
- Beitrag zu einem Sammelband (5)
- Forschungsbericht (5)
- Buchkapitel (1)
- Dissertation (1)
- Sonstiges (1)
Schlagworte
- Tensile properties (15)
- BAM-Liste (14)
- Dangerous goods (14)
- Sealing materials (12)
- Biodiesel (11)
- Biofuels (11)
- Compatibility (11)
- BAM-List (9)
- Polyethylene grades (9)
- Shore hardness (9)
Organisationseinheit der BAM
- 3 Gefahrgutumschließungen; Energiespeicher (27)
- 3.2 Gefahrguttanks und Unfallmechanik (27)
- 7 Bauwerkssicherheit (9)
- 7.6 Korrosion und Korrosionsschutz (9)
- 1 Analytische Chemie; Referenzmaterialien (3)
- 1.4 Prozessanalytik (3)
- 2 Prozess- und Anlagensicherheit (3)
- 2.1 Sicherheit von Energieträgern (3)
- 8 Zerstörungsfreie Prüfung (3)
- 8.1 Sensorik, mess- und prüftechnische Verfahren (3)
Eingeladener Vortrag
- nein (89)
Datenbank Gefahrgut - aktuelle Funktionalitäten für den Bereich Verpackung sowie geplanter Ausbau
(2010)
Use of higher-alloyed metallic materials and duplex steels for transport tanks of dangerous goods
(2011)
Compatibility evaluations of selected metallic materials under the influence of dangerous goods are published in the BAM-List - Requirements for Tanks for the Transport of Dangerous Goods” as basis for substance-related prototype approvals for tank Containers designed for the carriage of dangerous goods.
There is a request of the tank manufacturing industry and transportation Companies to incorporate additional materials into the BAM-List, especially corrosionresistant materials because of the large number of corrosive dangerous goods.
One solution to solve corrosion Problems is to line the tank with a polymeric material, an alternative solution is the application of high-alloyed stainless steels and nickel-based alloys as there are alloy 926 (1.4529), alloy 31 (1.4562) and alloy 59 (2.4605).
But there is an interest to use cost-efficient steels with high strength values and concomitant adequate corrosion resistance such as duplex Steel 1.4362 too. This Steel grade was originally developed as a substitute for the austenitic grades 1.4404 and 1.4571. Due to the lower content of the alloy elements nickel and molybdenum this duplex steel is a cost-efficient alternative to molybdenum containing austenite.
Due to the limited number of corrosion test results with welded test samples of these high-alloyed materials and the duplex steel under the influence of corrosive dangerous goods a comprehensive test Programme was performed with these materials in Cooperation with ThyssenKrupp VDM and Deutsche Edelstahlwerke GmbH.
It can be concluded from the test results that the "superaustenitic steels” 1.4529 and 1.4562 as well as the nickel-based alloy 2.4605 are a really good alternative as tank materials for the transport of dangerous goods in comparison to the lining of the tanks. Due to the reduced alloying content, in particular Nickel (3.7 %) and Molybdenum (0.15 %), a lower resistance of the duplex steel 1.4362 compared to the austenitic CrNiMo-steels was observed in acidic media. The duplex Steel is an alternative to the austenitic steels, especially in alkaline media. The test results are included in the current 10th edition of the BAM-List and therefore available for the costumer.
The notched impact strength at -30 °C is one of the selected properties, together with the corresponding test method and tolerances, for a comparison of polyethylene grades of one design type in the procedural rule on suitability proof for alternative plastic resins used for packagings and intermediate bulk containers (IBCs) for the transport of dangerous goods.
The marginal drop heights determined with the drop test at -18 °C after pre-storage of the test samples with 55 % nitric acid at 40 °C only partly related to the notched impact strength at -30 °C. The Charpy method is only suitable for classifying the grade in relation to toughness behavior and using this classification for comparison with other grades. Notched impact strength can provide a qualitative indication if the test samples fail under shock forces.
Conditioning the design types with 55 % nitric acid for 21 days at 40 °C causes an increase in the marginal drop heights of the design types in drop tests at -18 °C when compared with design types without pre-storage. Post-crosslinking of the grades increases stiffness because of the acidic influence.
The notched impact strength at -30 °C is one of the selected properties, together with the corresponding test method and tolerances, for a comparison of polyethylene grades of one design type in the procedural rule on suitability proof for alternative plastic resins used for packagings and intermediate bulk containers (IBCs) for the transport of dangerous goods.
The marginal drop heights determined with the drop test at -18 °C after pre-storage of the test samples with 55 % nitric acid at 40 °C only partly related to the notched impact strength at -30 °C. The Charpy method is only suitable for classifying the grade in relation to toughness behavior and using this classification for comparison with other grades. Notched impact strength can provide a qualitative indication if the test samples fail under shock forces.
Conditioning the design types with 55 % nitric acid for 21 days at 40 °C causes an increase in the marginal drop heights of the design types in drop tests at -18 °C when compared with design types without pre-storage. Post-crosslinking of the grades increases stiffness because of the acidic influence.
For the characterization and the comparison of polyethylene grades used for the manufacture of packaging and intermediate bulk container, the following parameters are required: melt flow rate (MFR), density (D), low-temperature notched impact strength, full notch creep test (FNCT) and increase of MFR by molecular degradation (resistance to oxidative degradation). The relationship between these material parameters determined on the basis of specimens prepared from compression-moulded sheets of polyethylene grades and the test behaviour of packaging has been investigated in several tests. The environmental stress crack resistance determined by FNCT represents the impacts from the stacking tests performed with standard liquid wetting solution (without pre-storage) and with normal butyl-acetate-saturated wetting solution (pre-storage with normal butyl acetate). Resistance to molecular degradation by the determination of MFR increase is related to the impacts in drop tests and stacking tests performed after pre-storage for 21 days with standard liquid 55% nitric acid at 40°C. The low-temperature impact strength is directly comparable with the impacts in drop tests at -18°C performed without pre-storage and after pre-storage with 55% nitric acid. A partly good relationship was found between the test results and the material parameters. Conditioning the design types with 55% nitric acid for 21 days causes an increase in the marginal drop heights of the design types in drop tests at -18°C when compared with design types without pre-storage. Post-cross-linking of the grades increases stiffness because of the acidic influence.
Ziel dieser Untersuchungen war die Bewertung der Beständigkeit häufig eingesetzter Dichtungswerkstoffe, wie FKM, FVMQ, VMQ, EPDM, CR, CSM, IIR, PA, NBR und PUR in Kraftstoffen und Heizöl mit und ohne biogene Zusätze bei 20 °C, 40 °C und 70 °C. E10, E85, Dieselkraftstoff mit max. 5 % Biodiesel, ungealtertes und 2 Jahre gealtertes B10 (Heizöl mit 10 % Biodiesel), reiner Dieselkraftstoff, Heizöl und Kraftstoff Super plus zählten zu den Testsubstanzen. Masse, Zugfestigkeit und Bruchdehnung wurden von den Prüfkörpern vor und nach der 84-tägigen Auslagerung in den Kraftstoffen und Heizöl bestimmt. Die visuelle Begutachtung einiger Elastomerprüfkörper zeigte eindeutig die hohe Quellung bis zur partiellen Auflösung. Die Shore-Härte A und D (für PA) der Prüfkörper wurden vor und nach der 42-tägigen Auslagerung in den Kraftstoffen bestimmt. In den internationalen Normen wird zur Bewertung der Beständigkeit von Elastomeren kein Grenzwert der Reduzierung der Zugeigenschaften und der Shore-Härte definiert. Deshalb wurde für die Beständigkeitsbewertung ein Grenzwert von 15 % festgelegt. Zusammenfassend kann die Aussage getroffen werden, dass die Beständigkeit der Fluorpolymere FKM und FVMQ in den Kraftstoffen und Heizöl mit und ohne biogene Zusätze die beste ist.
Die BAM-Liste - Anforderungen an Tanks für die Beförderung gefährlicher Güter – mit den Beständigkeitsbewertungen metallischer und polymerer Werkstoffe ist Grundlage für die stoffbezogenen Baumusterzulassungen für Tankcontainer und ortsbewegliche Tanks zur Beförderung gefährlicher Güter durch die BAM seit der Herausgabe der 1. Auflage 1989. Diese Beständigkeitsbewertungen werden nicht nur bundesweit, sondern weltweit als Erkenntnisquelle genutzt. Für die Zulassung von Kesselwagen und Tankfahrzeugen werden diese Daten auch herangezogen. Die Werkstoffbeständigkeitsdaten und der damit verbundene Informationsservice der BAM haben mit Sicherheit dazu beigetragen, Leckagen von Tanks aufgrund des Einsatzes von Tanks/Kesselwagen aus einem gegenüber dem Füllgut unbeständigem Tankwerkstoff oder Dichtungswerkstoff zu vermeiden.
8iofuels including ethanol and biodiesel (fatty acid methyl ester) represent an important renewable fuel alternative to petroleum-derived transport fuels. lncreasing biofuels use would bring some benefits, such as a reduction in oil demands and greenhause gas emissions, and an improvement in air quality.
Materials compatibility is a major concern whenever the fuel composition is changed in a fuel system. Therefore frequently used sealing materials such as FKM (fluorocarbon rubber), FVMQ (methyl-fluoro-silicone rubber), VMQ (methyl-vinyl-silicone rubber), EPDM (ethylene-propylene-diene rubber), CR (chloroprene rubber), CSM (chlorosulfonated polyethylene), IIR (butyl rubber), PA (polyamides), N8R (acrylonitrile-butadiene rubber) and PUR (polyester urethane rubber) were exposed to E1 0, diese I fuel with 5% biodiesel, non-aged and 2 year aged 810 (heating oil with 10% biodiesel), and for comparison to pure diese! fuel, standard heating oil and Super plus without bioethanol at 20 °C, 40 oc and 70 oc for 84 days. Mass, tensile strength and breaking elongation of the test specimens were determined before and after the exposure. The visual examination of some elastomer test specimens clearly showed the great volume increase until break or partial dissolution. Shore hardness A and D (for PA) were determined before and after exposure of the test specimens to the biofuels for 42 days.
There is not determined a threshold for the reduction in tensile properties and Shore hardness in the international standards. Therefore a threshold of 15% was determined for the evaluation of the compatibility.
The sealing materials FKM, EPDM, N8R, FMVQ, CSM and PA were evaluated on the basis of this threshold as resistant in E1 0 at 20 oc and 40 °C. FKM, FVMQ and PA were resistant at 40 oc , and none of the materials were resistant at 70 °C. FKM and FVMQ absorbed much less 810 and swelled less. CR, CSM, EPDM, IIR, N8R and VMQ were not resistant to 810 at all at 20 oc, 40 oc and 70 oc as the decrease in the tensile properties was significantly over 50%. FVMQ and PA could be evaluated as resistant in non-aged and two year aged 810 at 20 oc and 40 oc, whereas FKM was resistant up to 70 °C. FKM, PA and PUR were evaluated as resistant in standard heating oil and pure diese! fuel at temperatures up to 40°C, only FKM was resistant up to 70°C. FVMQ, FKM, N8R, VMQ, CR and IIR can be evaluated as resistant in premium grade fuel Super plus without ethanol at 20 oc. FKM, FVMQ, VMQ and IIR were still resistant at 40 °C. FKM and FVMQ were evaluated as resistant with restrictions at 70 °C.
ln summary, it can be therefore stated that the chemical resistance of the fluoropolymers FKM and FVMQ in fuels and biofuels is the best one.
The objective of this research was to determine the resistance of frequently used sealing materials such as FKM, FVMQ, VMQ, EPDM, CR, CSM, IIR, PA, NBR and PUR in fuels and heating oil with and without admixtures of biogenic sources such as E10, diesel fuel with 5 % biodiesel, non-aged and 2 year aged B10 (heating oil with 10 % biodiesel), pure diesel, standard heating oil and premium grade fuel Super plus at 20 °C, 40 °C and 70 °C.
Mass, tensile strength and breaking elongation of the test specimens were determined before and after the exposure for 84 days in the fuels. The visual examination of some elastomer test specimens clearly showed the great volume increase until break or partial dissolution. Shore hardness A and D (for PA) were determined before and after exposure of the test specimens in the biofuels for 42 days.
There is not determined a threshold for the reduction in tensile properties and Shore hardness in the international standards. Therefore a threshold of 15 % was determined for the evaluation of the compatibility.
In summary, it can be therefore stated that the chemical resistance of the fluoropolymers FKM and FVMQ in fuels and biofuels is the best one.
Die BAM-Liste - Anforderungen an Tanks für die Beförderung gefährlicher Güter – mit den Beständigkeitsbewertungen metallischer und polymerer Werkstoffe ist Grundlage für die stoffbezogenen Baumusterzulassungen für Tankcontainer und ortsbewegliche Tanks zur Beförderung gefährlicher Güter durch die BAM seit der Herausgabe der 1. Auflage 1989. Diese Beständigkeitsbewertungen werden nicht nur bundesweit, sondern weltweit als Erkenntnisquelle genutzt. Für die Zulassung von Kesselwagen und Tankfahrzeugen werden diese Daten auch herangezogen. Die Werkstoffbeständigkeitsdaten und der damit verbundene Informationsservice der BAM haben mit Sicherheit dazu beigetragen, Leckagen von Tanks aufgrund des Einsatzes von Tanks/Kesselwagen aus einem gegenüber dem Füllgut unbeständigem Tankwerkstoff oder Dichtungswerkstoff zu vermeiden.