Laser & Optoelectronics Progress, Volume. 57, Issue 5, 051402(2020)
Ultra-Fast Laser Milling Technology for VITA MARK II Dental Glass Ceramics
Fig. 1. Schematic of experimental structure of laser system
Fig. 2. Milling efficiency of VITA MARK II with different repetition frequencies at the scanning speed of 300 mm/s
Fig. 3. Pulse milling amount of VITA MARK II varying with the pulse energy intensity
Fig. 4. Experimental results in the condition of repetition frequency of 100 kHz and scanning speed of 100 mm/s:(a) Machined surface topography; (b) 3D model; (c) depth measurement result
Fig. 5. Change of milling efficiency of VITA MARK II at the pulse repetition frequency of 100 kHz. (a) Milling efficiency changed with the scanning speed; (b) milling efficiency changed with the pulse energy per unit distance
Fig. 6. Schematic of laser pulse scanning processing
Fig. 7. Processing effect of VITA MARK II by ultrafast laser under different conditions. (a) Repetition frequency; (b) scanning speed
Fig. 8. Machined topography (×30) with different repetition frequencies in the condition of scanning speed of 300 mm/s. (a) 50 kHz; (b) 100 kHz; (c) 300 kHz; (d) 500 kHz
Fig. 9. Machined topography (×20) with different scanning speeds in the condition of repetition frequency of 300 mm/s. (a) 50 mm/s; (b) 100 mm/s; (c) 150 mm/s; (d) 200 mm/s; (e) 300 mm/s; (f) 400 mm/s
Fig. 10. Experimental results in the condition of repetition frequency of 100 kHz and scanning speed of 200 mm/s. (a) Machined surface topography; (b) 3D model; (c) depth measurement result
Fig. 11. Relationship between pulse energy density and processing depth in the condition of pulse number per unit distance is 500 pulse/mm
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Peixin Hu, Lu Yao, Qitao Lü, Encai Ji, Zilin Nie, Zhengdi He. Ultra-Fast Laser Milling Technology for VITA MARK II Dental Glass Ceramics[J]. Laser & Optoelectronics Progress, 2020, 57(5): 051402
Category: Lasers and Laser Optics
Received: Jul. 16, 2019
Accepted: Sep. 6, 2019
Published Online: Mar. 5, 2020
The Author Email: He Zhengdi (1810411003@email.szu.edu.cn)