&lt;title&gt;Cutting performance of a chemical oxygen-iodine laser on aerospace and industrial materials&lt;/title&gt;

Latham, W. P.; Kendrick, Kip R.; Rothenflue, James A.; Kar, Aravinda; Carroll, David L.

doi:10.1117/12.375181

Cited by 2 publications

References 12 publications

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Laser cutting of 2024-T3 aeronautic aluminum alloy

Riveiro

Quintero

Lusquiños

et al. 2008

Journal of Laser Applications

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Articles you may be interested inThermal stress distributions and microstructure in laser cutting of thin Al-Si alloy sheet J. Laser Appl. 25, 042006 (2013); 10.2351/1.4807081 Spatial analysis of the back reflected laser light during CO2-laser cutting of metal sheets J. Laser Appl. 25, 012001 (2013); 10.2351/1.4765818Comprehensive assessment of the C O 2 laser cut quality of ceramics with different assist gas injection systems Since the beginning of the aeronautic industry, aluminum alloys have played a crucial role in its development. Nowadays, different aluminum alloy families are the base material of many pieces of aerospace vehicles. In this work, a novel approach to process aluminum alloys is explored. The authors efforts are aimed to cut 2024-T3 plates by a CO 2 laser. They used a novel laser cutting head assisted by a gas jet working in supersonic regime in order to accomplish this objective. This supersonic nozzle and the intrinsic geometry of the cutting head allow carrying out the processing of these alloys more efficiently than conventional cutting heads. The microstructural characterization, grain morphology, kerf dimensions, and surface finish of the cuts have been analyzed. The cut edges are free of dross and cracks and the heat affected zone is negligible. These successful results confirm laser cutting processing assisted by a supersonic assisting gas jet as a promising technique in the aerospace field.

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