{"title":"Effect of the organic coating thickness on water uptake measurements by EIS","authors":"","doi":"10.1016/j.porgcoat.2024.108823","DOIUrl":null,"url":null,"abstract":"<div><div>In this work, we studied the effect of the coating thickness on the water uptake measured by electrochemical impedance spectroscopy (EIS). A model epoxy system (DGEBA/JeffamineD230), without pigment, was chosen to obtain free-films and coatings on aluminium with thicknesses ranging between 50 and 400 μm. The polymer systems were carefully cured above the glass transition temperature and rapidly cooled down to avoid physical ageing. Then, free-films and coatings were immersed at 50 °C and water uptake was measured by gravimetry for free-films and by EIS for coatings. In parallel, the coating swelling was measured by scanning electrochemical microscopy (SECM).</div><div>The results showed that water uptake values for the free-films are close to 2.8 wt% for all tested thicknesses. For the coatings, the Brasher and Kingsbury relation lead to water uptake values that were thickness-dependent, and higher than those obtained with free-films. For thin organic coatings (50 μm), it was proposed that the time analysis of EIS data must consider the time needed to reach the measuring frequency to enhance the quality of water uptake measurements by EIS. For thick organic coatings (370 μm), water uptake values obtained by EIS were found to coincide with those measured for free-films when swelling is considered (introduction of the time-dependent thickness into the Brasher and Kingsbury relation). The discrepancy with thinner coatings was explained by internal stress relaxation that is more important for thinner coatings at the metal/coating interface, leading to more important swelling and water uptake values.</div></div>","PeriodicalId":20834,"journal":{"name":"Progress in Organic Coatings","volume":null,"pages":null},"PeriodicalIF":6.5000,"publicationDate":"2024-09-25","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Progress in Organic Coatings","FirstCategoryId":"88","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0300944024006155","RegionNum":2,"RegionCategory":"材料科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"CHEMISTRY, APPLIED","Score":null,"Total":0}
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Abstract
In this work, we studied the effect of the coating thickness on the water uptake measured by electrochemical impedance spectroscopy (EIS). A model epoxy system (DGEBA/JeffamineD230), without pigment, was chosen to obtain free-films and coatings on aluminium with thicknesses ranging between 50 and 400 μm. The polymer systems were carefully cured above the glass transition temperature and rapidly cooled down to avoid physical ageing. Then, free-films and coatings were immersed at 50 °C and water uptake was measured by gravimetry for free-films and by EIS for coatings. In parallel, the coating swelling was measured by scanning electrochemical microscopy (SECM).
The results showed that water uptake values for the free-films are close to 2.8 wt% for all tested thicknesses. For the coatings, the Brasher and Kingsbury relation lead to water uptake values that were thickness-dependent, and higher than those obtained with free-films. For thin organic coatings (50 μm), it was proposed that the time analysis of EIS data must consider the time needed to reach the measuring frequency to enhance the quality of water uptake measurements by EIS. For thick organic coatings (370 μm), water uptake values obtained by EIS were found to coincide with those measured for free-films when swelling is considered (introduction of the time-dependent thickness into the Brasher and Kingsbury relation). The discrepancy with thinner coatings was explained by internal stress relaxation that is more important for thinner coatings at the metal/coating interface, leading to more important swelling and water uptake values.
在这项工作中,我们研究了涂层厚度对电化学阻抗光谱(EIS)测量的吸水率的影响。我们选择了一种不含颜料的环氧树脂体系(DGEBA/JeffamineD230)模型,以在铝材上获得厚度在 50 到 400 μm 之间的自由薄膜和涂层。聚合物体系在高于玻璃转化温度的条件下小心固化,然后迅速冷却,以避免物理老化。然后,将游离薄膜和涂层浸入 50 °C的水中,用重力测量法测量游离薄膜的吸水率,用 EIS 测量涂层的吸水率。结果表明,在所有测试厚度下,游离膜的吸水率都接近 2.8 wt%。对于涂层,布拉舍和金斯伯里关系得出的吸水值与厚度有关,高于自由薄膜的吸水值。对于薄有机涂层(50 微米),建议对 EIS 数据进行时间分析时必须考虑达到测量频率所需的时间,以提高 EIS 吸水率测量的质量。对于较厚的有机涂层(370 μm),如果考虑膨胀因素(在布拉舍和金斯伯里关系中引入随时间变化的厚度),通过 EIS 获得的吸水值与自由薄膜的测量值相吻合。较薄涂层的差异可解释为金属/涂层界面处的内应力松弛对较薄涂层更为重要,从而导致更重要的膨胀和吸水值。
期刊介绍:
The aim of this international journal is to analyse and publicise the progress and current state of knowledge in the field of organic coatings and related materials. The Editors and the Editorial Board members will solicit both review and research papers from academic and industrial scientists who are actively engaged in research and development or, in the case of review papers, have extensive experience in the subject to be reviewed. Unsolicited manuscripts will be accepted if they meet the journal''s requirements. The journal publishes papers dealing with such subjects as:
• Chemical, physical and technological properties of organic coatings and related materials
• Problems and methods of preparation, manufacture and application of these materials
• Performance, testing and analysis.
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