Videos/Animationen


From atoms to turbine blades –
a scale bridging journey into the nanocosmos of a Ni-base superalloy





Institut für Werkstoffe - DFB Projekt: SFB-Transregio 103

The movie represents a scale bridging journey from the macro scale into the nanocosmos of a superalloy turbine blade. Turbine blades are produced by a directional solidification process. They are used in gas turbines for aero engines and for power plants where they must withstand high mechanical loads at extremely high temperatures. The high temperature strength depends on the microstructure of the superalloy. There are microstructural features on different length scales, which determine the properties of these fascinating materials. In the movie different microscopic methods are used to zoom into a turbine blade. We first see a turbine blade. As we approach we recognize dendrites which form during solidification (length scale 0,5 milli meter). We zoom in and further and recognize the well known gamma/gamma prime microstructure (length scale: 0,5 micro meter). We use advanced analytical methods to show how the alloy elements are distributed in the microstructure. Finally, we resolve columns of atoms (length scale 0,5 nano meter) which allow us to appreciate the crystalline nature of superalloys. The movie was produced by the Insitute for Materials of the Ruhr-Universität Bochum in the framework of the collaborative research center SFB/TR 103 on single crystal super alloys, which is funded by the Deutsche Forschungsgemeinschaft (DFG).




Vorstellung des Forschungsclusters Micro & Biomedical engineering





Maschinenbau an der Ruhr-Universität Bochum



Von der Zikade zum Implantat – Bionisch inspirierte Werkstoffforschung


Der Lehrstuhl Werkstoffe der Mikrotechnik ist auf der Medizintechnikmesse Compamed vertreten:

"Infektionsschutz hat viele Facetten. Antibakteriell wirkende Metalle gehören seit einigen Jahren dazu. Eine neuere Entwicklung sind hingegen nanostrukturierte Oberflächen, die Bakterien abtöten. In unserem Video erklärt Prof. Manfred Köller vom Berufsgenossenschaftlichen Universitätsklinikum Bergmannsheil, wie Nanosäulen Bakterien zerstören. Und wir fragen Prof. Alfred Ludwig von der Ruhr-Universität Bochum, wie er die Säulen in seinem Labor auf Titanplatten wachsen lässt und was die Flügel der Zikade damit zu tun haben."

Quelle: COMPAMED.de










Animation created using free blender software package



Combinatorial thin film deposition (K3)



K3 is a turbopumped HV chamber with 3 confocal cathodes (1x each DC, RF, bipolar pulsed DC). This chamber is designed for depositing films of oxides and nitrides, and has a heater capable of going to 850°C in oxyxgen or nitrogen environments, as well as RF bias on the substrate.



High throughput test stand (HTTS)



The high throughput test stand (HTTS) is a custom made unit, specially designed for the rapid characterization of thin film materials libraries which in our case are commonly deposited on 4” Si-wafers. Depending on the installed measurement module, electrical or magnetical properties of the materials library can be measured.



Cleanroom



The cleanroom at the Chair for MEMS Materials is class ISO 5, and includes tools for photolithography and further microstructuring.



Weitere VideoLinks:


- Vorstellung des Materials Research Department (MRD)