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dc.contributor.authorBaziz, Leila
dc.contributor.authorNouiri, Abdelkader
dc.date.accessioned2023-09-13T07:35:07Z
dc.date.available2023-09-13T07:35:07Z
dc.date.issued2013
dc.description.abstractIn this work, we used a nanosecond Nd: Yag laser (l=532 nm) with a pulse duration of 15 ns, and an energy of 50 mJ and, therefore, we studied the threshold ablation of industrial aluminum alloy. The composition of the recuperated aluminum (% mass) is (72.02 Al, Si 13.05, 6.34 Zn, 4.28 O, 2.08 Mg, 1.75 Cu, 0.48 Ni) and the industrial aluminum is (83.10 Al, 1.66 Si, 4.12 Fe 2.17 O, 1.20 Mg, 5.47 Cu, 1.74 Mn, 1.79 Pb). For nanosecond lasers, the primary energy is lost by thermal diffusion in the irradiated target, because there is enough time to convert optical energy into thermal energy and heat spread. Fusion and / or evaporation may take place if the surface temperature exceeds the critical point when the energy of radiation is above the ablation threshold. The results shows that the threshold ablation of the recuperated aluminum is lower than that of the aluminum industry, it is about 5 J.cm-2 for the recovered aluminum and 10 J.cm-2 for the industrial aluminum. The threshold ablation is shifted towards the low values when the number of pulses increases.ar
dc.identifier.issn2170-161X
dc.identifier.issn2588-2082
dc.identifier.urihttp://hdl.handle.net/123456789/15701
dc.language.isoenar
dc.publisherOum-El-Bouaghi Universityar
dc.subjectlaser-matter interactionar
dc.subjectLaser ablationar
dc.subjectAluminum Alloysar
dc.titleNdar
dc.title.alternativeyag Laser Ablation Of Recuperated And Industrial Aluminum Alloysar
dc.title.alternativeStudy Of Threshold Ablationar
dc.typeArticlear
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