Causes of back-trap mottle in lithographic offset prints on coated papers

IF 0.6 4区农林科学 Q4 MATERIALS SCIENCE, PAPER & WOOD

Tappi Journal Pub Date : 2016-03-01 DOI:10.32964/TJ15.2.91

G. Engström

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引用次数: 5

Abstract

Back-trap mottle is a common and serious print quality problem in lithographic offset printing of coated papers. It is caused by nonuniform ink retransfer from an already printed surface when it passes through a subsequent printing nip with the print in contact with the rubber blanket in that nip. A nonuniform surface porosity gives rise to mottle. A key parameter in mottling contexts is the coating mass distribution, which must be uniform. Good relationships between mottle and mass distribution have also been reported; the mottle pattern coincides with that of the coating mass distribution. High blade pressures, compressible base papers, and high water pick-up between application and metering, which plasticizes the paper, yield uniform mass distributions, but these parameters might have a detrimental effect on the runnability in blade coating in terms of web breaks. The general opinion has been that nonuniform surface porosity is caused by binder migration and enrichment of binder in the coating surface, more in the high coat weight areas and less in the low coat weight areas. Recent research has suggested that a more probable mechanism is depletion of binder in the coating surface. Nonuniform shrinkage of the pigment matrix (filter cake) formed during the consolidation between the first critical concentration (FCC) and the second critical concentration (SCC) is another possible mechanism. Relevant relaxation times for latex and the time scales for consolidation show that the high coat weight areas shrink more than the low coat weight areas in the coating layer. A recent pilot-scale experiment has shown that the drying strategy did not affect the differences in shrinkage between high and low coat weight areas. The drying strategy has a pronounced impact on mottle. A high evaporation rate at the beginning of the evaporation results in less mottle than a low evaporation rate. The least mottle is obtained if the drying is performed with a gap in the course of evaporation between the FCC and the SCC.

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铜版纸平版胶印后陷斑纹的成因

背陷斑纹是铜版纸平版胶印中常见而严重的印刷质量问题。这是由于油墨从已经印刷的表面不均匀地再转移，当它通过一个后续的印刷压痕时，印品与压痕中的橡皮布接触。不均匀的表面孔隙率会产生斑驳。在斑驳环境中，涂层质量分布是一个关键参数，它必须均匀。斑驳和质量分布之间也有良好的关系;斑驳图案与镀层质量分布相吻合。高叶片压力、可压缩的原纸以及在涂布和计量之间的高吸水率会使纸张塑化，从而产生均匀的质量分布，但这些参数可能会对叶片涂布的可操作性产生不利影响。一般认为，不均匀的表面孔隙是由粘结剂迁移和粘结剂在涂层表面的富集引起的，在涂层重高的区域较多，在涂层重低的区域较少。最近的研究表明，一种更可能的机制是涂层表面粘合剂的耗竭。在第一临界浓度(FCC)和第二临界浓度(SCC)之间的固结过程中形成的颜料基体(滤饼)的不均匀收缩是另一种可能的机制。胶乳的相关松弛时间和固结时间尺度表明，涂层中高涂层重量区域比低涂层重量区域收缩更大。最近的一项中试试验表明，干燥策略不会影响高和低涂层重量区域之间的收缩差异。干燥策略对斑驳有明显的影响。在蒸发开始时，高蒸发速率比低蒸发速率产生的斑驳少。如果在FCC和SCC之间的蒸发过程中有间隙进行干燥，则获得最少的斑驳。

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

Tappi Journal 工程技术-材料科学：纸与木材

CiteScore

1.30

自引率

16.70%

发文量

审稿时长

6-12 weeks

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