| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 5368137 | Applied Surface Science | 2007 | 5 Pages |
Laser nitriding of materials is based on the interaction of short pulsed laser radiation with the treated material and the hitherto formed laser plasma. The process is very promising for the fast formation of surface coatings with superior properties. Due to the short interaction times and the thin surface films an experimental observation of the underlying processes is very difficult. In order to access the basic mechanism, finite element method simulations of laser heating, evaporation, plasma formation and expansion, plasma composition and interaction with the materials surface have been performed. As a result, evaporation and expansion velocities, pressure balances and dissociation degrees have been derived. The results give a better insight into the physical processes and dependencies of the coating formation, in this case for the titanium-nitrogen system. This finally allows an optimization of the coating synthesis.
