Ti Surface Laser Polishing: Effect of Laser Path and Assist Gas☆

@article{Giorleo2015TiSL,
  title={Ti Surface Laser Polishing: Effect of Laser Path and Assist Gas☆},
  author={Luca Giorleo and Elisabetta Ceretti and Claudio Giardini},
  journal={Procedia CIRP},
  year={2015},
  volume={33},
  pages={446-451}
}
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References

SHOWING 1-8 OF 8 REFERENCES

Pulsed laser polishing of micro-milled Ti6Al4V samples

Influence of overlap between the laser beam tracks on surface quality in laser polishing of AISI H13 tool steel

The Effect of Laser Pulse Duration and Feed Rate on Pulsed Laser Polishing of Microfabricated Nickel Samples

The objective of this work was to improve our understanding of pulsed laser micropolishing (PLμP) by studying the effects of laser pulse length and feed rate (pulses per millimeter) on surface

Pulsed laser micro polishing: Surface prediction model

An approach to modelling of laser polishing of metals

Influence of Intensity Distribution and Pulse Duration on Laser Micro Polishing

Polishing Titanium- and Nickel-based Alloys using Cw-Laser Radiation

Reducing surface roughness of metallic freeform-fabricated parts using non-tactile finishing methods

Metallic parts created using current freeform fabrication processes have an unacceptably high surface finish (Ra » 1:0 mm) for many functional applications. This paper addresses the use of