The effect of carbonyl components of printing substrates on the durability of UV thermochromic prints

Q3 Engineering

Journal of graphic engineering and design Pub Date : 2023-12-01 DOI:10.24867/jged-2023-4-033

M. Rožić, T. Cigula, Snežana Miljanić

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引用次数: 0

Abstract

Special effects on a printed product can increase consumer’s interest in a product and therefore lead to higher revenues in consumer industries. For that purpose, graphic industry introduced various technologies and materials that would have such an effect and enhance consumer-goods interaction. One of those solutions is thermochromic printing. Although bringing added value, thermochromic inks have some challenges in application due to their higher sensitivity, especially when exposed to UV light. Therefore, the goal of this work is to determine whether amount of the UV radiation during curing of UV thermochromic prints, as well as exposure after printing would degrade the thermochromic print on various substrates. UV thermochromic prints were made on three different paper printing substrates using the screen printing method and dried in a laboratory controlled unit. Synthetic paper, recycled paper containing 100 % recycled cellulose fibers and bulky voluminous paper were used as printing substrates. During the UV curing of the ink, no photooxidation of the prints occurred. Additional exposure of the prints to UV radiation (after the ink has hardened) leads to their photooxidative degradation, i.e., a change in the initial color. The obtained colour difference (ΔE) is increasing with the increase of the irradiation amount. The highest colour difference is on the synthetic paper while prints on two other substrates are more resistant to UV light. A print on synthetic paper photooxidizes the fastest due to the presence of most carbonyl groups in it. Generated free radicals promote the instability of prints on synthetic paper. Research has proven that when using synthetic paper or substrates with similar characteristics, care should be taken to accurately determine the amount of UV energy required for curing in order to prevent photodegradation of the ink. The results also show that to explain any degradation of prints, the chemical components of the paper needs to be taken into account, which is rarely done.

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印刷基材中的羰基成分对紫外线热致变色印刷品耐久性的影响

印刷产品上的特殊效果可以增加消费者对产品的兴趣，从而提高消费行业的收入。为此，图形行业引进了各种技术和材料，这些技术和材料将产生这样的效果，并加强消费者与商品的互动。其中一个解决方案是热致变色印刷。热致变色油墨虽然带来了附加值，但由于其较高的灵敏度，特别是暴露在紫外线下时，在应用中面临一些挑战。因此，本研究的目的是确定UV热致变色印刷品固化过程中的UV辐射量以及印刷后的曝光是否会使各种基材上的热致变色印刷品降解。使用丝网印刷方法在三种不同的纸张印刷基材上制作UV热致变色印刷品，并在实验室控制单元中干燥。采用合成纸、含100%再生纤维素纤维的再生纸和体积较大的纸张作为印刷基材。在油墨的UV固化过程中，印品没有发生光氧化。在油墨硬化后，将印刷品额外暴露在紫外线辐射下会导致其光氧化降解，即初始颜色的变化。所得色差(ΔE)随辐照量的增加而增大。在合成纸上的色差最大，而在其他两种基材上的印刷品更耐紫外线。合成纸上的印刷品由于含有大多数羰基基团，其光氧化速度最快。生成的自由基促进了合成纸印刷品的不稳定性。研究证明，在使用合成纸或具有类似特性的基材时，应注意准确确定固化所需的UV能量，以防止油墨的光降解。结果还表明，要解释任何印刷品的降解，需要考虑纸张的化学成分，而这很少被考虑在内。

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 graphic engineering and design Engineering-Computational Mechanics

CiteScore

1.40

自引率

0.00%

发文量

审稿时长

10 weeks