Acoustic emission (AE) monitoring is used to reveal the interaction mechanisms in pulsed laser processing of float glass. Circular ablated pits and irregular shaped cracks are formed on the float glass’s upper surface by the pulsed laser dotting. By analyzing the AE signals, the intensity of laser ablation can be assessed, and the formation of large crack can be extracted. This work proves that it is feasible to apply AE monitoring in study the pulsed laser dotting process of float glass, and provides an alternative for monitoring study of pulsed laser processing of other brittle materials.
Credit: Weinan Liu, Youmin Rong, Ranwu Yang, Congyi Wu, Guojun Zhang, Yu Huang
Acoustic emission (AE) monitoring is used to reveal the interaction mechanisms in pulsed laser processing of float glass. Circular ablated pits and irregular shaped cracks are formed on the float glass’s upper surface by the pulsed laser dotting. By analyzing the AE signals, the intensity of laser ablation can be assessed, and the formation of large crack can be extracted. This work proves that it is feasible to apply AE monitoring in study the pulsed laser dotting process of float glass, and provides an alternative for monitoring study of pulsed laser processing of other brittle materials.
Researchers led by Prof. Yu Huang at Huazhong University of Science and Technology (HUST), China, are interested in laser fine processing technology and equipment. Their researches focus on short pulsed/ultrafast laser processing of various hard-to-process materials, such as glass, ceramics, and composite materials. By optimizing the laser machining quality, exploring the interaction mechanism, and the monitoring the machining process, researchers have established a more complete stereoscopic research system, further realizing the relevant laser machining equipment manufacturing.
The work entitled “Revealing the interaction mechanism of pulsed laser processing with the application of acoustic emission” was published on Frontiers of Optoelectronics (published on Jun. 14, 2023).
Journal
Frontiers of Optoelectronics
Article Title
Revealing the interaction mechanism of pulsed laser processing with the application of acoustic emission
Article Publication Date
14-Jun-2023