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Prediction of Thermal Damage upon Ultrafast Laser Ablation of Metals

Liliana Cangueiro, José A. Ramos-de-Campos, David Bruneel

2021Molecules23 citationsDOIOpen Access PDF

Abstract

Ultrafast lasers micromachining results depend on both the processing parameters and the material properties. The obtained thermal effects are negligible if a good combination of processing parameters is chosen. However, optimizing the processing parameters leading to the required surface quality on a given material can be quite complex and time consuming. We developed a semi-empirical model to estimate the heat accumulation on a surface as a function of the laser fluence, scanning speed and repetition rate. The simulation results were correlated with experimental ones on different materials, and compared with the transient temperature distributions calculated using an analytical solution to the heat transfer equation. The predictions of the proposed model allow evaluating the heat distribution on the surface, as well as optimizing the ultrafast laser micromachining strategy, yielding negligible thermal damage.

Topics & Concepts

FluenceUltrashort pulseLaserMaterials scienceSurface micromachiningLaser ablationThermalAblationHeat transferTransient (computer programming)Surface (topology)Heat equationMechanicsOpticsThermodynamicsComputer scienceFabricationPhysicsGeometryMedicineQuantum mechanicsPathologyAlternative medicineAerospace engineeringEngineeringOperating systemMathematicsLaser Material Processing TechniquesOcular and Laser Science ResearchSemiconductor Lasers and Optical Devices
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