In this paper, a laser milling simulator package is shown and discussed. The software system has been developed to simulate the micro-manufacturing process using solid state lasers with pulse width in the range of 10 100 ns. The system can simulate the effects of the laser beam on the workpiece, keeping into account the surface conditions, the evolution of the workpiece temperature field, the phase changes in the material and the plasma plume effects. Simplifications concerning fluidodynamic and energy dispersions of the plasma plume are proposed. In particular, two empirical tuning parameters are considered: the first one is a global dispersion factor that keeps in account the fraction of energy lost in the environment by the plume; the second one is a spreading factor that permits to model the irradiated energy of the laser beam hitting the workpiece. The direct and coupled effects of these two parameters are evaluated and discussed. Copyright © 2009, Inderscience Publishers.

Laser ablation simulation for copper / Tani, G.; Fortunato, A.; Orazi, L.; Cuccolini, G.. - In: INTERNATIONAL JOURNAL OF NANOMANUFACTURING. - ISSN 1746-9392. - 3:3(2009), pp. 279-294. [10.1504/IJNM.2009.027429]

Laser ablation simulation for copper

Tani G.;Orazi L.;Cuccolini G.
2009

Abstract

In this paper, a laser milling simulator package is shown and discussed. The software system has been developed to simulate the micro-manufacturing process using solid state lasers with pulse width in the range of 10 100 ns. The system can simulate the effects of the laser beam on the workpiece, keeping into account the surface conditions, the evolution of the workpiece temperature field, the phase changes in the material and the plasma plume effects. Simplifications concerning fluidodynamic and energy dispersions of the plasma plume are proposed. In particular, two empirical tuning parameters are considered: the first one is a global dispersion factor that keeps in account the fraction of energy lost in the environment by the plume; the second one is a spreading factor that permits to model the irradiated energy of the laser beam hitting the workpiece. The direct and coupled effects of these two parameters are evaluated and discussed. Copyright © 2009, Inderscience Publishers.
2009
22-lug-2009
3
3
279
294
Laser ablation simulation for copper / Tani, G.; Fortunato, A.; Orazi, L.; Cuccolini, G.. - In: INTERNATIONAL JOURNAL OF NANOMANUFACTURING. - ISSN 1746-9392. - 3:3(2009), pp. 279-294. [10.1504/IJNM.2009.027429]
Tani, G.; Fortunato, A.; Orazi, L.; Cuccolini, G.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1204982
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