Characterisation of the deagglomeration behaviour of nanoscaled barium hexaferrite powders by measurement of electricalkinetic effects. - In: Information technology and electrical engineering - devices and systems, materials and technologies for the future, (2006), S. 285-286
Heteropolytype and low dimensional structures in SiC. - In: Information technology and electrical engineering - devices and systems, materials and technologies for the future, (2006), S. 263-264
Black silicon - new functionalities in microsystems. - In: Journal of micromechanics and microengineering, ISSN 1361-6439, Bd. 16.2006, 6, S. S82-S87
http://dx.doi.org/10.1088/0960-1317/16/6/S13
Modifizierte Düsenkonfiguration für das DC-Vakuumplasmaspritzen. - In: Tagungsband, (2006), S. 38-47
Vergleichende Studie zum thermischen Spritzen oxidkeramischer Werkstoffe. - In: Tagungsband, (2006), S. 30-37
Progresses in the electrophoretic deposition technique to infiltrate oxide fibre mats for fabrication of ceramic matrix composites. - In: Electrophoretic deposition: fundamentals and applications II, (2006), S. 195-200
InN as THz emitter excited at 1060 nm and 800 nm. - In: Millimeter-wave and terahertz photonics, 2006, S. 61940I, insges. 9 S.
2D modelling of EM glass convection by temperature dependent material properties. - In: Proceedings of the 4th International Scientific Colloquium Modelling for Material Processing, (2006), S. 161-166
An application of external magnetic field induced Lorentz force in the stirring process of oxide melts is a well-known industrial method. In this case not only the thermal convection caused by direct (thermal) and indirect (Joule) heating is present but also a contribution of Lorentz force which is used to intensify the stirring process. - A prediction of experimentally reasonable conditions - temperature range etc. could face various difficulties if a material with non-linear physical propertzies is used. In our present publication we discuss the results we have grained in ANSYS CFX simulations of an opaque glass melt in 2D approximation.
Nanocrystalline AlN:Si field emission arrays for vacuum electronics. - In: Physica status solidi, ISSN 1862-6319, Bd. 203 (2006), 7, S. 1839-1844
http://dx.doi.org/10.1002/pssa.200565238
Growth of AlN nanowires by metal organic chemical vapour deposition. - In: Physica status solidi, ISSN 1521-3951, Bd. 243 (2006), 7, S. 1476-1480
http://dx.doi.org/10.1002/pssb.200565205