[Zurück]

J. Hell, M. Horkel, E. Neubauer, C. Eisenmenger-Sittner:
"Construction and characterization of a sputter deposition system for coating granular materials";
Vacuum, 84 (2010), S. 453 - 457.

In many modern ceramic or metal matrix composites the interface between the matrix and the reinforcements (particles or fibres)plays an important role.Either no or only weak mechanical bonding is observed or severe reactions between the matrix and the filler during the manufacturing process take place. A method to promote adhesion or to avoid severe reactions is to use coated reinforcements. A uniform film can act as an adhesion promoter,a compliant layer,a reaction inhibitor or a promoter of thermal transport across the interface.
The aim of this work was to construct a particle coating system based on magnetron sputter deposition which allows to keep the particles or the granular material in motion during the deposition process to guarantee a homogenous coating on every single particle. As particles to be coated diamond granulates and carbon fibres were investigated. For transparent diamond particles the uniformity of a metallic coating could be evaluated by transmission optical methods and was found to be quite high. Carbon fibres,on the other hand,could only partially be coated due to agglomeration and shadowing effects. The system presented here can be considered as suitable for coating spherical or close to spherical granular matter.

http://dx.doi.org/10.1016/j.vacuum.2009.09.007