LI, Chao ;SU, Linzhi ;LI, Tielin ;CHEN, Fei ;ZHANG, Xiaohong ;PENG, Peng ;HE, Jiantao ;ZHAO, Sishuo . Polishing of alumina ceramic gears by picosecond pulsed laser. Articles in Press, [S.l.], v. 0, n.0, p. , september 2025. ISSN 0039-2480. Available at: <https://www.sv-jme.eu/sl/article/polishing-of-alumina-ceramic-gears-by-picosecond-pulsed-laser/>. Date accessed: 01 jan. 2026. doi:http://dx.doi.org/.
Li, C., Su, L., Li, T., Chen, F., Zhang, X., Peng, P., He, J., & Zhao, S. (0). Polishing of alumina ceramic gears by picosecond pulsed laser. Articles in Press, 0(0), . doi:http://dx.doi.org/
@article{.,
author = {Chao Li and Linzhi Su and Tielin Li and Fei Chen and Xiaohong Zhang and Peng Peng and Jiantao He and Sishuo Zhao},
title = {Polishing of alumina ceramic gears by picosecond pulsed laser},
journal = {Articles in Press},
volume = {0},
number = {0},
year = {0},
keywords = {Alumina ceramics; Ceramic gears; Picosecond pulsed laser; Surface partitioning; Laser polishing; },
abstract = {Alumina ceramic gears have excellent mechanical properties and resistance to high temperatures and corrosion, and can be applied to extreme working conditions that traditional metal gears cannot accommodate. However, its inherent high hardness and brittleness make it difficult to ensure a good surface during molding and manufacturing. In this paper, alumina ceramic gears were polished using a picosecond pulsed laser. By proposing a novel alternating superimposed scanning strategy, processing errors were effectively reduced and surface integrity was enhanced. A univariate experimental system was used to optimize the key laser parameters (power, scanning speed, number of scans, and line spacing), and the optimal combination of parameters (7 W power, 220 mm/s scanning speed, 4 scans, and 0.005 mm line spacing) was finally determined to obtain a tooth surface with a surface roughness (Sa) of 1.091μm. Comparative analysis showed that the surface roughness was significantly reduced by 43.24% compared with the conventional machining (1.922 μm). Notably, the laser surface treatment method significantly reduces the processing cost compared with the traditional mechanical polishing process, providing a new cost-effective surface treatment process for ceramic gear molding.},
issn = {0039-2480}, pages = {}, doi = {},
url = {https://www.sv-jme.eu/sl/article/polishing-of-alumina-ceramic-gears-by-picosecond-pulsed-laser/}
}
Li, C.,Su, L.,Li, T.,Chen, F.,Zhang, X.,Peng, P.,He, J.,Zhao, S. 0 September 0. Polishing of alumina ceramic gears by picosecond pulsed laser. Articles in Press. [Online] 0:0
%A Li, Chao %A Su, Linzhi %A Li, Tielin %A Chen, Fei %A Zhang, Xiaohong %A Peng, Peng %A He, Jiantao %A Zhao, Sishuo %D 0 %T Polishing of alumina ceramic gears by picosecond pulsed laser %B 0 %9 Alumina ceramics; Ceramic gears; Picosecond pulsed laser; Surface partitioning; Laser polishing; %! Polishing of alumina ceramic gears by picosecond pulsed laser %K Alumina ceramics; Ceramic gears; Picosecond pulsed laser; Surface partitioning; Laser polishing; %X Alumina ceramic gears have excellent mechanical properties and resistance to high temperatures and corrosion, and can be applied to extreme working conditions that traditional metal gears cannot accommodate. However, its inherent high hardness and brittleness make it difficult to ensure a good surface during molding and manufacturing. In this paper, alumina ceramic gears were polished using a picosecond pulsed laser. By proposing a novel alternating superimposed scanning strategy, processing errors were effectively reduced and surface integrity was enhanced. A univariate experimental system was used to optimize the key laser parameters (power, scanning speed, number of scans, and line spacing), and the optimal combination of parameters (7 W power, 220 mm/s scanning speed, 4 scans, and 0.005 mm line spacing) was finally determined to obtain a tooth surface with a surface roughness (Sa) of 1.091μm. Comparative analysis showed that the surface roughness was significantly reduced by 43.24% compared with the conventional machining (1.922 μm). Notably, the laser surface treatment method significantly reduces the processing cost compared with the traditional mechanical polishing process, providing a new cost-effective surface treatment process for ceramic gear molding. %U https://www.sv-jme.eu/sl/article/polishing-of-alumina-ceramic-gears-by-picosecond-pulsed-laser/ %0 Journal Article %R %& %P 1 %J Articles in Press %V 0 %N 0 %@ 0039-2480 %8 2025-09-10 %7 2025-09-10
Li, Chao, Linzhi Su, Tielin Li, Fei Chen, Xiaohong Zhang, Peng Peng, Jiantao He, & Sishuo Zhao. "Polishing of alumina ceramic gears by picosecond pulsed laser." Articles in Press [Online], 0.0 (0): . Web. 01 Jan. 2026
TY - JOUR AU - Li, Chao AU - Su, Linzhi AU - Li, Tielin AU - Chen, Fei AU - Zhang, Xiaohong AU - Peng, Peng AU - He, Jiantao AU - Zhao, Sishuo PY - 0 TI - Polishing of alumina ceramic gears by picosecond pulsed laser JF - Articles in Press DO - KW - Alumina ceramics; Ceramic gears; Picosecond pulsed laser; Surface partitioning; Laser polishing; N2 - Alumina ceramic gears have excellent mechanical properties and resistance to high temperatures and corrosion, and can be applied to extreme working conditions that traditional metal gears cannot accommodate. However, its inherent high hardness and brittleness make it difficult to ensure a good surface during molding and manufacturing. In this paper, alumina ceramic gears were polished using a picosecond pulsed laser. By proposing a novel alternating superimposed scanning strategy, processing errors were effectively reduced and surface integrity was enhanced. A univariate experimental system was used to optimize the key laser parameters (power, scanning speed, number of scans, and line spacing), and the optimal combination of parameters (7 W power, 220 mm/s scanning speed, 4 scans, and 0.005 mm line spacing) was finally determined to obtain a tooth surface with a surface roughness (Sa) of 1.091μm. Comparative analysis showed that the surface roughness was significantly reduced by 43.24% compared with the conventional machining (1.922 μm). Notably, the laser surface treatment method significantly reduces the processing cost compared with the traditional mechanical polishing process, providing a new cost-effective surface treatment process for ceramic gear molding. UR - https://www.sv-jme.eu/sl/article/polishing-of-alumina-ceramic-gears-by-picosecond-pulsed-laser/
@article{{}{.},
author = {Li, C., Su, L., Li, T., Chen, F., Zhang, X., Peng, P., He, J., Zhao, S.},
title = {Polishing of alumina ceramic gears by picosecond pulsed laser},
journal = {Articles in Press},
volume = {0},
number = {0},
year = {0},
doi = {},
url = {https://www.sv-jme.eu/sl/article/polishing-of-alumina-ceramic-gears-by-picosecond-pulsed-laser/}
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TY - JOUR AU - Li, Chao AU - Su, Linzhi AU - Li, Tielin AU - Chen, Fei AU - Zhang, Xiaohong AU - Peng, Peng AU - He, Jiantao AU - Zhao, Sishuo PY - 2025/09/10 TI - Polishing of alumina ceramic gears by picosecond pulsed laser JF - Articles in Press; Vol 0, No 0 (0): Articles in Press DO - KW - Alumina ceramics, Ceramic gears, Picosecond pulsed laser, Surface partitioning, Laser polishing, N2 - Alumina ceramic gears have excellent mechanical properties and resistance to high temperatures and corrosion, and can be applied to extreme working conditions that traditional metal gears cannot accommodate. However, its inherent high hardness and brittleness make it difficult to ensure a good surface during molding and manufacturing. In this paper, alumina ceramic gears were polished using a picosecond pulsed laser. By proposing a novel alternating superimposed scanning strategy, processing errors were effectively reduced and surface integrity was enhanced. A univariate experimental system was used to optimize the key laser parameters (power, scanning speed, number of scans, and line spacing), and the optimal combination of parameters (7 W power, 220 mm/s scanning speed, 4 scans, and 0.005 mm line spacing) was finally determined to obtain a tooth surface with a surface roughness (Sa) of 1.091μm. Comparative analysis showed that the surface roughness was significantly reduced by 43.24% compared with the conventional machining (1.922 μm). Notably, the laser surface treatment method significantly reduces the processing cost compared with the traditional mechanical polishing process, providing a new cost-effective surface treatment process for ceramic gear molding. UR - https://www.sv-jme.eu/sl/article/polishing-of-alumina-ceramic-gears-by-picosecond-pulsed-laser/
Li, Chao, Su, Linzhi, Li, Tielin, Chen, Fei, Zhang, Xiaohong, Peng, Peng, He, Jiantao, AND Zhao, Sishuo. "Polishing of alumina ceramic gears by picosecond pulsed laser" Articles in Press [Online], Volume 0 Number 0 (10 September 2025)
Articles in Press
Alumina ceramic gears have excellent mechanical properties and resistance to high temperatures and corrosion, and can be applied to extreme working conditions that traditional metal gears cannot accommodate. However, its inherent high hardness and brittleness make it difficult to ensure a good surface during molding and manufacturing. In this paper, alumina ceramic gears were polished using a picosecond pulsed laser. By proposing a novel alternating superimposed scanning strategy, processing errors were effectively reduced and surface integrity was enhanced. A univariate experimental system was used to optimize the key laser parameters (power, scanning speed, number of scans, and line spacing), and the optimal combination of parameters (7 W power, 220 mm/s scanning speed, 4 scans, and 0.005 mm line spacing) was finally determined to obtain a tooth surface with a surface roughness (Sa) of 1.091μm. Comparative analysis showed that the surface roughness was significantly reduced by 43.24% compared with the conventional machining (1.922 μm). Notably, the laser surface treatment method significantly reduces the processing cost compared with the traditional mechanical polishing process, providing a new cost-effective surface treatment process for ceramic gear molding.