NEWS ARTICLE
学术动态:Air-Coupled Ultrasonic Detection of Surface Roughening and Ink Wettability
论文标题:Air-Coupled Ultrasonic Detection of Surface Roughening and Ink Wettability
发布日期:2026-05-24
作者:Guangya Li
DOI:10.3390/s26113334
论文摘要:In the field of traditional aging state evaluation of paper materials, traditional detection technologies such as ink drop method and chemical analysis have inherent limitations including sample damage, strong subjectivity, and inability to realize large-area detection. To address these problems, a non-contact and non-destructive testing method based on air-coupled ultrasonic technology was developed in this study, to achieve objective and quantitative characterization of paper roughening degree and ink wettability. The system adopted a LabVIEW-based host computer to control scanning and signal acquisition. Based on the propagation and scattering mechanism of ultrasound in the porous fiber structure of paper, the amplitude difference and pixel distribution of C-scan images were extracted as core characteristic parameters. The experimental results show that, with a 400 kHz air-coupled probe and 200 mm/s scanning speed, the roughening degree of paper can be quantitatively characterized by the amplitude difference of ultrasonic transmission signals. The amplitude difference increases significantly with the rise of water content, and the difference in roughening characteristics between newsprint and Xuan paper can be clearly distinguished. The ink wettability can be judged by the pixel distribution of the C-scan image: the higher the proportion of intermediate color pixels, the closer the ink circularity is to 1, and the better the ink wettability. All test results are highly consistent with the national standard GB/T 18739-2008. The constructed air-coupled ultrasonic testing system can provide reliable technical support for quality control and aging evaluation of paper cultural relics and high-grade paper by characterizing both surface roughening and internal porous structure (which are coupled during paper aging), without any contact or damage to the samples.
元数据:Crossref 收录的 MDPI Sensors 论文。 DOI: 10.3390/s26113334. Vol. 26, Issue 11. Authors: Guangya Li.
开放许可:https://creativecommons.org/licenses/by/4.0/
原文链接:https://doi.org/10.3390/s26113334
PDF 链接:https://www.mdpi.com/1424-8220/26/11/3334/pdf