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Organisationseinheit der BAM
Our ability to produce and transform engineered materials over the past 150 years is responsible for our high standards of living today, especially in the developed economies. Yet, we must carefully think of the effects our addiction to creating and using materials at this fast rate will have on the future generations. The way we currently make and use materials detrimentally affects the planet Earth, creating many severe environmental problems. It affects the next generations by putting in danger the future of economy, energy, and climate. We are at the point where something must drastically change, and it must change NOW. We must create more sustainable materials alternatives using natural raw materials and inspiration from Nature while making sure not to deplete important resources, i.e. in competition with the food chain supply. We must use less materials, eliminate the use of toxic materials and create a circular materials economy where reuse and recycle are priorities. We must develop sustainable methods for materials recycling and encourage design for disassembly. We must look across the whole materials life cycle from raw resources till end of life and apply thorough life cycle assessments based on reliable and relevant data to quantify sustainability.
Messung und Bewertung von Gerüchen aus Bauprodukten für den Innenraum gewinnen vor allem durch den zunehmenden Bau energieeffizienter Gebäude an Bedeutung. Intensive und unangenehme Gerüche werden von Bewohnerinnen, Bewohnern und Angestellten nicht akzeptiert und können auf Dauer krank machen. Bislang stand noch kein allgemein anerkanntes Messverfahren zur Verfügung. Dieses wurde nun in Forschungsprojekten entwickelt, wobei auch konkrete Bewertungsvorschläge zur Zumutbarkeit von Gerüchen gemacht wurden. Das Verfahren ist an die Messung der Emissionen flüchtiger organischer Verbindungen aus Bauprodukten gekoppelt und nutzt Probanden, um die Geruchsstärke (Intensität) und den Geruchseindruck (Hedonik) zu ermitteln. In der Praxis wird das Verfahren nun an verschiedenen Stellen erprobt. Die Bewertung der Geruchsemissionen gibt der Industrie die Möglichkeit, geruchsarme Produkte zu gestalten. Die Kennzeichnung geruchsarmer Bauprodukte mit dem Umweltzeichen Blauer Engel erleichtert Verbraucherinnen und Verbrauchern die Orientierung beim Einkauf.
Bioactive ceramics used as coating materials combine the conductive properties of a bioceramic with the mechanical stability of the metal implant. We studied a calcium zirconium phosphate-containing coating material, FA-CZP [Ca5(PO4)3F, CaZr4(PO4)6], that is relatively insoluble in the biological milieu. The reaction of bone to this material was investigated histologically and histomorphometrically in an animal trial. Cylindrical Ti6Al4V specimens that had been coated with FA-CZP by plasma spraying were implanted in the femoral condyles of rabbits. The implants were left in place for 2, 4, 6, 12, and 14 weeks. FA-CZP led to impaired mineralization of the newly formed bone at the interface. Noncalcified osteoid was found throughout the whole study period. The layer seemed to become thicker with time. The mineralization disorder is evidently caused by zirconium ions. The presence of zirconium in the osteoid in contact with the implant was demonstrated by means of two different staining methods.
Motor Vehicles
(2021)
The amount of plastic and synthetic materials is still growing in all sectors of everyday life. In the automotive industry, plastic materials are now widely used in vehicles because of their excellent mechanical properties and their light weight combined with low production costs. However, plastic materials are flammable and can generate toxic smoke gases which can endanger passengers’ lives in the event of fire.
By means of synchrotron X-ray computed tomography, model composites consisting of silica and styrenebutadiene rubber were studied with a very high spatial resolution. By our analysis technique we were able to determine the nano- and micro dispersion from the experimental results by our numerical analysis. These results are discussed with respect to crucial advantages of the generically 3-dimensional tomography technique as compared to 2-dimensional methods. Our quantitative analysis of the 3d images demonstrates that in the case of our model composites the filler dispersion is good, independent on the filler concentration. Our new 3-dimensional results evidence that considering only 2-d pictures may lead to ambiguities that can lead to wrong conclusions.