2022
DOI: 10.3390/cryst12121788
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Study on the Surface Morphology of Micro-Particles and the Oxide Layer on Silicon Carbide Crystal Using Nanosecond Green Laser Cleaning Assisted with Airflow

Abstract: With a focus on the particle pollutants on the surface of silicon carbide crystal materials, this paper establishes a laser cleaning model for the fine particles found in silicon carbide crystal materials and proposes a new nanosecond green laser cleaning method assisted by airflow, which can effectively remove microparticles and the oxide layer on the substrate surface. Abaqus software and ANSYS Fluent software were used to simulate changes in the cleaning temperature field and the distribution of particles a… Show more

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Cited by 7 publications
(1 citation statement)
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References 54 publications
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“…This includes techniques such as plasma blowing [ 12 ], wet washing with detergents [ 13 ], ultrasonic [ 14 ] or high-pressure spray [ 15 ], resonant laser detachment [ 16 ], laser ice jet [ 17 ], and dry wiping [ 18 ], etc. Moreover, online protection using non-contact methods such as applications of electrostatic fields [ 19 ] and airflow [ 20 ] have become increasingly popular in recent times. For instance, the latest SG series features a dual dynamic airflow protection system that effectively removes particles [ 21 ].…”
Section: Introductionmentioning
confidence: 99%
“…This includes techniques such as plasma blowing [ 12 ], wet washing with detergents [ 13 ], ultrasonic [ 14 ] or high-pressure spray [ 15 ], resonant laser detachment [ 16 ], laser ice jet [ 17 ], and dry wiping [ 18 ], etc. Moreover, online protection using non-contact methods such as applications of electrostatic fields [ 19 ] and airflow [ 20 ] have become increasingly popular in recent times. For instance, the latest SG series features a dual dynamic airflow protection system that effectively removes particles [ 21 ].…”
Section: Introductionmentioning
confidence: 99%