Optimization of micropore fabrication on the surface of ultrathick polyimide film based on picosecond UV laser

IF 1.7 4区 工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Laser Applications Pub Date : 2023-10-03 DOI:10.2351/7.0001070
Haixing Liu, Jie Xu, Haojian He, Chao Wu, Jing Liu, Xiuquan He, Xizhao Wang
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Abstract

Micropores fabricated on organic polymer films have a wide range of applications in fields such as microfiltration, new energy, and biomedical separation. The use of laser processing technology can complete the processing of micropores on the surface of ultrathin films with high precision, but there is still some difficulty in the processing of ultrathick films. In this paper, a picosecond ultraviolet (UV) laser was used to explore the high-precision manufacturing process of micropores on the surface of ultrathick polyimide (PI) films. The effects of laser power, laser frequency, and scanning speed on the cone angle and spatter deposition area of micropores’ fabrication on ultrathick PI were studied based on orthogonal experiments. The mechanism of processing micropores on ultrathick PI was analyzed by studying the deposition area and morphology of the spatter generated during the laser ablation process. It was found that high-quality micropores can be fabricated at low laser frequency and high power.
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基于皮秒紫外激光的超厚聚酰亚胺膜表面微孔制备优化
在有机聚合物薄膜上制备微孔在微过滤、新能源、生物医学分离等领域有着广泛的应用。利用激光加工技术可以高精度地完成超薄薄膜表面微孔的加工,但超厚薄膜的加工仍然存在一定的困难。本文利用皮秒紫外激光对超厚聚酰亚胺(PI)薄膜表面微孔的高精度制造工艺进行了研究。采用正交实验法研究了激光功率、激光频率和扫描速度对超厚PI微孔制备的锥角和溅射沉积面积的影响。通过研究激光烧蚀过程中溅射物的沉积面积和形貌,分析了超厚PI表面微孔的形成机理。研究发现,在低激光频率和高激光功率下,可以制备出高质量的微孔。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Laser Applications
Journal of Laser Applications 物理-光学
CiteScore
3.60
自引率
9.50%
发文量
125
审稿时长
>12 weeks
期刊介绍: The Journal of Laser Applications (JLA) is the scientific platform of the Laser Institute of America (LIA) and is published in cooperation with AIP Publishing. The high-quality articles cover a broad range from fundamental and applied research and development to industrial applications. Therefore, JLA is a reflection of the state-of-R&D in photonic production, sensing and measurement as well as Laser safety. The following international and well known first-class scientists serve as allocated Editors in 9 new categories: High Precision Materials Processing with Ultrafast Lasers Laser Additive Manufacturing High Power Materials Processing with High Brightness Lasers Emerging Applications of Laser Technologies in High-performance/Multi-function Materials and Structures Surface Modification Lasers in Nanomanufacturing / Nanophotonics & Thin Film Technology Spectroscopy / Imaging / Diagnostics / Measurements Laser Systems and Markets Medical Applications & Safety Thermal Transportation Nanomaterials and Nanoprocessing Laser applications in Microelectronics.
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