Underwater-laser drilling of aluminum

Autor: Sharon Shannon, Nikša Krstulović, Robert Stefanuik, Carlo Fanara
Rok vydání: 2013
Předmět:
Zdroj: The International Journal of Advanced Manufacturing Technology. 69:1765-1773
ISSN: 1433-3015
0268-3768
DOI: 10.1007/s00170-013-5141-4
Popis: Pulsed-laser ablation of an aluminum bulk sample was performed both in water and air with a Q- switched Nd:YAG 1, 064-nm laser over a range of high-output energies from 100 to 500 mJ. The effect of laser drilling in terms of produced crater volumes as a function of water-layer thickness was studied. The water-layer thickness was varied from 1 to 20 mm. In a special case, water droplets were added to the ablation region of the dry target in order to support ablation. Water-layer thickness in that case was estimated to be 0.5 mm. A comparison of the results obtained in air and underwater was performed. It is found that the aluminum target may be drilled more efficiently under the confinement of water compared to drilling in air environment. Further drilling efficiency can be achieved by varying the thickness of water. The optimized water thickness under the conditions of our experiment was found to be 3 mm. In that case, a 28-fold increase in crater volume and 18-fold increase in crater depth was achieved as compared to ablation in air. In underwater ablation, the formation of irregular surface structures of re-deposited material around the crater (rim) is avoided and the crater surface is smoother. In an air environment, the drilling is suppressed due to an immediate re- solidification and re-deposition of ablated material. This leads to a better characteristics of craters obtained underwater in terms of roughness, shape, volumes, and reproducibility.
Databáze: OpenAIRE
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