Filtern
Erscheinungsjahr
- 2021 (1727) (entfernen)
Dokumenttyp
- Vortrag (707)
- Zeitschriftenartikel (598)
- Beitrag zu einem Tagungsband (151)
- Posterpräsentation (140)
- Buchkapitel (27)
- Sonstiges (23)
- Newsletter (14)
- Forschungsbericht (13)
- Forschungsdatensatz (12)
- Dissertation (9)
Sprache
- Englisch (1307)
- Deutsch (408)
- Mehrsprachig (4)
- Russisch (4)
- Tschechisch (2)
- Italienisch (1)
- Spanisch (1)
Schlagworte
- Corrosion (40)
- Additive manufacturing (39)
- Korrosion (31)
- Ultrasound (27)
- Additive Manufacturing (26)
- Hydrogen (25)
- Quantum yield (23)
- Nanomaterial (22)
- Non-destructive testing (22)
- Additive Fertigung (21)
Organisationseinheit der BAM
- 8 Zerstörungsfreie Prüfung (344)
- 6 Materialchemie (333)
- 1 Analytische Chemie; Referenzmaterialien (265)
- 7 Bauwerkssicherheit (236)
- 9 Komponentensicherheit (227)
- 5 Werkstofftechnik (168)
- 4 Material und Umwelt (154)
- 6.3 Strukturanalytik (108)
- 9.4 Integrität von Schweißverbindungen (95)
- 8.5 Röntgenbildgebung (93)
Paper des Monats
- ja (4)
Sample functions, i.e., stochastic process realizations, are used to define cumulative damage phenomena which end into an observable terminal state or failure. The complexity inherent to such phenomena justifies the use of phenomenological models associated with the evolution of a physical magnitude feasible to be monitored during the test. Sample functions representing the damage evolution may be identified, once normalized to the interval [0,1], with cumulative distribution functions (cdfs), generally, of the generalized extreme value (GEV) family. Though usually only a fraction of the whole damage evolution, according to the specific problem handled, is available from the test record, the phenomenological models proposed allow the whole damage process to be recovered. In this way, down- and upwards extrapolations of the whole damage process beyond the scope of the experimental program are provided as a fundamental tool for failure prediction in the practical design. The proposed methodology is detailed and its utility and generality confirmed by its successive application to representative well-known problems in fatigue and fracture characterization. The excellent fittings, the physical interpretation of the model parameters and the good expectations to achieve a complete probabilistic analysis of these phenomena justify the interest of the proposed phenomenological approach with possible applications to other cumulative damage processes.
Scientific welding data covers a wide range of physical domains and timescales and are measured using various different sensors. Complex and highly specialized experimental setups at different welding institutes complicate the exchange of welding research data further. The WelDX research project aims to foster the exchange of scientific data inside the welding community by developing and establishing a new open source file format suitable for the documentation of experimental welding data and upholding associated quality standards. In addition to fostering scientific collaboration inside the national and international welding community an associated advisory committee will be established to oversee the future development of the file format. The proposed file format will be developed with regard to current needs of the community regarding interoperability, data quality and performance and will be published under an appropriate open source license. By using the file format objectivity, comparability and reproducibility across different experimental setups can be improved.
The largest percentage of component life under fatigue loading conditions is spent in the short crack regime and in the initial phase of long cracks. The use of Fracture Mechanics in the characterization of fatigue crack growth rate curves has proven to be a useful and adequate tool in the prediction of fatigue lifetimes as long as certain conditions are satisfied. All the above implies the need for a methodical and accurate procedure of assessment of the material response in order to achieve a reliable prediction of lifetime in components under safe conditions, based on the damage tolerance approach. It also highlights the need to analyse the response of increasingly reduced thicknesses, which, as time goes by, show greater differences with respect to those commonly studied and defined in standards and design guidelines, as well as to the experimental studies that can be found in the literature at present. Some examples of thin-walled components are turbine blades or certain additively manufactured parts where, additionally, variations in material properties can occur locally and should also be examined.
Se presenta una guía completa del procedimiento experimental para la determinación del valor umbral ΔKth intrínseco y caracterización de curvas FCGR sobre el acero de alta resistencia S960QL empleando probetas de pequeña escala. El análisis se realiza comparando probetas SENB de diferentes geometrías, distinguiendo entre “convencionales” y “miniatura”. Las primeras con espesor (B) de 6 mm y anchura (W) de 19, y las segundas con B = 3 y dos valores distintos de W, 4 y 6 mm. A fin de identificar el valor umbral ΔKth intrínseco, la relación de cargas (R) aplicada en todos los ensayos fue 0,8. La técnica de caída de potencial (DCPD) se utilizó para la monitorización del tamaño de grieta a lo largo de los ensayos.
La evaluación de los resultados experimentales confirma la equiparación de resultados entre las distintas geometrías y configuraciones de ensayo practicadas, así como la viabilidad de emplear probetas de pequeña escala en la determinación del valor umbral ΔKth intrínseco. Esto abre nuevas perspectivas en lo relativo al empleo de probetas de reducidas dimensiones en la caracterización de materiales a fatiga. A su vez, permite ofrecer una serie de recomendaciones para reproducir con éxito ensayos semejantes utilizando probetas de pequeñas dimensiones de acero y otros materiales metálicos.
Development of a test system for identifying the bitumen type and the modifier used in a reclaimed asphalt Da Polymer-, Gummi-, wachs- und mehrfachmodifizierte Bitumen seit Jahren im Asphaltstraßenbau eigesetzt werden, kommen diese vermehrt im Ausbauasphalt vor. Zur Bewertung des Ausbauasphalts ist es daher notwendig, die Modifizierungen an der Mischanlage zu identifizieren. Die Ausbildung des Bindemittelsacks beim Erweichungspunkt Ring und Kugel ist charakteristisch für die Modifizierung. Hierdurch können wachsmodifizierte Bitumen (WmB) recht präzise und Polymermodifizierten Bitumen (PmB) teilweise identifiziert werden. Mittels Differential Scanning Calorimetry (DSC) werden die Schmelztemperaturen der Wachse erfasst. Hierdurch können WmB identifiziert und die Wachsarten unterschieden werden. Die Analytik mittels Dynamischem Scherrheometer (DSR) startet mit der Bestimmung der Äquisteifigkeitstemperatur EG*T. Bei EG*T werden Frequenz-, Amplituden- und MSCR-Tests durchgeführt. Die Grenze des LVE-Bereichs dient der Identifizierung von WmB. Anhand der Kennwerte bei 0,1 Hz können PmB erkannt werden. Die Rückformung (MSCRT) dient der Identifizierung von Mehrfachmodifizierungen. Da Gummimodifizierte Bitumen (GmB) bei der Extraktion erkannt werden, können alle Modifizierungsarten identifiziert werden. In den FTIR-Spektren (Fourier-Transformations-Infrarotspektroskopie) der modifizierten Bitumen verursachen einige Polymere und Wachse charakteristische Banden, wodurch diese erkannt werden. Die Identifizierung der übrigen Additive erfolgt mithilfe einer multivariaten Auswertung, wodurch mit Ausnahme der GmB (nicht erforderlich) alle Additive erkannt werden. An Stichproben konnte zudem eine Abgrenzung von Mehrfachmodifizierungen sowie eine Abschätzung der Zugabemenge erreicht werden. DSR und FTIR ermöglichen beide eine schnelle, einfache und zielsichere Identifizierung der Bitumenmodifizierungen. Durch die FTIR-Analytik können die Modifizierungen mit der größtmöglichen Präzision bestimmt werden. Die DSR-Analytik erlaubt dafür zusätzlich eine baupraktische Bewertung der Bindemittel.
As polymer, rubber, wax and multi-modified bitumen are used for asphalt road construction since many years, they increasingly occur in reclaimed asphalt. To assess the reclaimed asphalt, it is therefore necessary to identify the modifications in the mixing plants. The formation of the binder bag at softening point ring and ball is characteristic for modification. In this way, wax modified bitumen (WmB) can be identified rather precisely and to a less extent polymer modified bitumen (PmB) can also be identified. Differential scanning calorimetry (DSC) is used to record the melting temperatures of the waxes. In this way, WmB can be identified and a differentiation can be made between the wax types. The analysis by means of the dynamic shear rheometer (DSR) starts with the determination of the equi-stiffness temperature EG*T. Frequency-, amplitude- and MSCR-tests are performed at EG*T. The limit of the LVE range is used to identify WmB. PmB can be identified based on the characteristic values at 0.1 Hz. Creep recovery (MSCRT) is used to identify multi-modifications. As rubber modified bitumen (GmB) is identified on extraction, all types of modification can therefore be identified. Several polymers and waxes cause characteristic bands in the FTIR spectra (Fourier Transform Infrared spectroscopy) of modified bitumen, which enables the identification of these additives. The other additives except the GmB (not necessary) can be identified by means of multivariate model. Further, due to random evaluations, the differentiation between single- and multi-modification as well as the estimation of the content of some additives is possible. DSR and FTIR both enable fast, simple and accurate identification of the bitumen modification. The modification can be determined with the greatest possible precision by using FTIR analysis. On the other hand, DSR analysis allows additional practical assessment of the binder on site.
Under the auspices of the Protein Analysis Working Group (PAWG) of the Comité Consultatif pour la Quantité de Matière (CCQM) a pilot study, CCQM-P216, was coordinated by the Chinese National Institute of Metrology (NIM), National Research Council of Canada (NRC) and the Bureau International des Poids et Mesures (BIPM). Eleven Metrology Institutes or Designated Institutes and the BIPM participated in the first phase of the pilot study (Part 1). The purpose of this pilot study was to develop measurement capabilities for larger proteins using a recombinant humanized IgG monoclonal antibody against Spike glycoprotein of SARS-CoV-2 (Anti-S IgG mAb) in solution. The first phase of the study was designed to employ established methods that had been previously studies by the CCQM Protein Analysis Working Group, involving the digestion of protein down to the peptide or amino acid level. The global coronavirus pandemic has also led to increased focus on antibody quantitation methods. IgG are among the immunoglobulins produced by the immune system to provide protection against SARS-CoV-2. Anti-SARS-CoV-2 IgG can therefore be detected in samples from affected patients. Antibody tests can show whether a person has been exposed to the SARS-CoV-2, and whether or not they potentially show lasting immunity to the disease. With the constant spread of the virus and the high pressure of re-opening economies, antibody testing plays a critical role in the fight against COVID-19 by helping healthcare professionals to identify individuals who have developed an immune response, either via vaccination or exposure to the virus. Many countries have launched large-scale antibody testing for COVID-19. The development of measurement standards for the antibody detection of SARS-CoV-2 is critically important to deal with the challenges of the COVID-19 pandemic. In this study, the SARS-CoV-2 monoclonal antibody is being used as a model system to build capacity in methods that can be used in antibody quantification. Amino acid reference values with corresponding expanded uncertainty of 36.10 ± 1.55 mg/kg, 38.75 ± 1.45 mg/kg, 18.46 ± 0.78 mg/kg, 16.20 ± 0.67 mg/kg and 30.61 ± 1.30 mg/kg have been established for leucine, valine, phenylalanine, isoleucine and proline, respectively. Agreement between nearly all laboratories was achieved for the amino acid analysis within 2 to 2.5 %, with one participant achieving markedly higher results due to a technical issue found in their procedure; this result was thus excluded from the reference value calculations. The relatively good agreement within a laboratory between different amino acids was not dissimilar to previous results for peptides or small proteins, indicating that factors such as hydrolysis conditions and calibration procedures could be the largest sources of variability. Peptide reference values with corresponding expanded uncertainty of 4.99 ± 0.28 mg/kg and 6.83 ± 0.65 mg/kg have been established for ALPAPIEK and GPSVFPLAPSSK, respectively. Not surprisingly due to prior knowledge from previous studies on peptide quantitation, agreement between laboratories for the peptide-based analysis was slightly poorer at 3 to 5 %, with one laboratory's result excluded for the peptide GPSVFPLAPSSK. Again, this level of agreement was not significantly poorer than that achieved in previous studies with smaller or less complex proteins. To reach the main text of this paper, click on Final Report.
Mit der Bezeichnung Hinterglasmalerei wird allgemein der Begriff der Glasmalerei assoziiert. Auch wenn in beiden Fällen Glas das Trägermaterial ist, bezeichnet Hinterglasmalerei jedoch eine völlig andere Technik. Während bei der Glasmalerei die Farben auf den Bildträger eingebrannt werden, handelt es sich bei der Hinterglasmalerei um eine Kaltmalerei. Selbsttrocknende Farben werden auf die Rückseite der Glastafel aufgetragen, zuweilen wird die Malweise durch aufwendige Veredelungstechniken ergänzt. Mehr und mehr rückt diese Technik, die materialtechnologisch zwischen Tafelmalerei und Glasmalerei zu verorten ist, in den Blickwinkel einer interessierten Öffentlichkeit, wie dies eine zunehmende Anzahl verschiedener Ausstellungen zur Hinterglasmalerei belegen. Die vorliegende Publikation beschäftigt sich in erster Linie mit kunsttechnologischen und materialanalytischen Aspekten der Hinterglasmalerei und ermöglicht tiefe Einblicke in die künstlerische Arbeitsweise und in die Verwendung unterschiedlichster Materialien.
The aim of this study is to develop polymeric thin films for corrosion protection of magnesium alloy AZ31. As polymer matrix, poly(4-vinyl pyridine) (P4VP) is selected due to its semiconducting properties and protonic conductivity. Polyacrylic acid is tested as crosslinking layers to improve interfacial adhesion. The macroscopic corrosion properties of the multilayer coatings are investigated by means of electrochemical methods, such as linear sweep voltammetry and electrochemical impedance spectroscopy (EIS), in corrosive media simulating technical and biomedical applications. It is demonstrated that thin multilayer coatings can suppress the corrosion rates of magnesium alloys. To our best knowledge, this is the first demonstration of the use of P4VP as a conducting polymer film with protonic conductivity for corrosion protection of magnesium alloys.