Zican Yang scite author profile

The machining-induced cracks and other defects on the surface of fused silica would incur damage when irradiated by intense lasers, which greatly shortens the service life of the fused silica optical components. The high absorption coefficient of fused silica for far-infrared lasers makes it possible to use low-energy CO2 lasers to melt and heal micro defects on the surface, and hence improve its damage threshold under the service conditions of extremely intense laser. However, the air in the cracks may evolve into bubbles during the laser healing process, but the law of crack morphology evolution and the bubble formation mechanism have not been clearly revealed. In this work, a simulation model of the healing process of fused silica surface cracks under the effect of low-energy CO2 laser is established. Three bubble formation mechanisms (i.e., the uneven fluidity caused by temperature gradient, the collapse effect caused by inclined cracks, and the internal cracks) are identified based on the simulation results of cracks with various original morphologies and characteristic structural parameters. The simulated fused silica morphology is consistent with the results of the laser healing experiment. This work can provide theoretical guidance for the optimization of optical manufacturing parameters of fused silica, as well as the CO2 laser healing and polishing strategies.

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Effect of scratches on the damage characteristics of fused silica optics under extremely-high impact load

Cheng

Yang

Wang

et al. 2022

International Journal of Mechanical Sciences

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Investigation on the influence of the CO2 laser parameters on the defect healing process of fused silica

Yang¹,

Xu²,

Cheng³

et al. 2021

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Zican Yang

Structural evolution of dispersed hydrophobic association in a hydrogel analyzed by the tensile behavior

Fabrication of grinding tool material by the SHS of Ni–Al/diamond/dilute

Formation mechanism of bubbles in the crack healing process of fused silica using a CO₂ laser

Effect of scratches on the damage characteristics of fused silica optics under extremely-high impact load

Investigation on the influence of the CO2 laser parameters on the defect healing process of fused silica

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Zican Yang

Structural evolution of dispersed hydrophobic association in a hydrogel analyzed by the tensile behavior

Fabrication of grinding tool material by the SHS of Ni–Al/diamond/dilute

Formation mechanism of bubbles in the crack healing process of fused silica using a CO2 laser

Effect of scratches on the damage characteristics of fused silica optics under extremely-high impact load

Investigation on the influence of the CO2 laser parameters on the defect healing process of fused silica

Contact Info

Product

Resources

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Formation mechanism of bubbles in the crack healing process of fused silica using a CO₂ laser