Elektrophoretische Beschichtung zur Realisierung niedrigemittierender keramischer Schichten. - In: Thüringer Werkstofftag 2004, (2004), S. 97-102
Transparent fiber reinforced glass composites. - In: Building the bridges between glass science and glass technology, (2004), S. 238-248
Structural and optical properties of both pure poly(3-octylthiophene) (P3OT) and P3OT/fullerene films. - In: Thin solid films, ISSN 1879-2731, Bd. 450 (2004), 1, S. 97-100
http://dx.doi.org/10.1016/j.tsf.2003.10.045
TEM characterization of nanostructured materials for materials science - opportunities and challenges. - In: Thüringer Werkstofftag 2004, (2004), S. 69-70
Festkörper mit negativer thermischer Ausdehnung. - In: Thüringer Werkstofftag 2004, (2004), S. 63-68
Vergleichende oberflächenanalytische und korrosionschemische Untersuchungen zum Einfluß eines keramischen Brennzyklus auf eine biozertifizierte PdCuGa-Aufbrennkeramiklegierung. - In: Thüringer Werkstofftag 2004, (2004), S. 57-62
Anforderungen an Werkstoffe und Technologien zur Herstellung von effizienten langzeitstabilen Polymersolarzellen. - In: Thüringer Werkstofftag 2004, (2004), S. 31-36
Electronics and sensors based on pyroelectric AlGaN/GaN heterostructures. - In: Thüringer Werkstofftag 2004, (2004), S. 1-18
Theoretical analysis of particle chemistry in plasma spraying. - In: Tagungsband, (2004), S. 119-128
Optimisation of nozzle contours for the APS. - In: Tagungsband, (2004), S. 55-64
In plasma spraying, individual droplet behavior at impact is the fundamental element to understand resulting coating microstructure. A new experimental set-up with two fast shutter cameras (exposure time: 100 ns to 1 ms) allows visualisation at impact of a single particle plasma sprayed with a direct current (d.c) torch. Images of a single plasma-sprayed particle at impact on a smooth substrate are presented. Splashing phenomena can be decomposed in two parts: impact and flattening ones. Matter ejection due to impact is independent from the substrate temperature while it is not the case for flattening splashing. Image correlation with recording signals (TTL pulse for triggering of cameras, pyrometric signal) enable studing event chronologies which are essential to understand the complete impact phenomenon. Zirconia particles with different sizes are used in conjunction with glass and stainless steel smooth substrates maintained at specific temperatures (over or under the transition temperature)