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How The Flexographic Printing Plate Influences Print Results
Apr 16, 2018

How the flexographic printing plate influences print results

The flexographic printing plate can be described as the heart of flexographic printing, as it has a decisive influence on a label printer's print results and production efficiency. There are well over 40 different flexographic printing plates on the market for label printers, but all of them vary in terms of their properties, print behaviour and manufacturing process.

Consequently, label printers often face the exceptionally difficult task of choosing a suitable printing plate. With this in mind, Gallus spent several weeks investigating and comparing the printing features of all the top-name flexographic printing plates. The results and evaluations ranged from exceptional to unusable. Even if there is no perfect flexographic printing plate for all areas, it was possible to identify a small number of top plates for label printers.

The basics

Most flexographic printing plates are now made of photopolymer; plates made of rubber are much less common. The washing out processes for photopolymer printing plates range from those that use solvents to water and thermal development. However, the majority of photopolymer flexographic printing plates are washed out with solvents or water in the following steps (1-6):

Flat top dots

There is currently a trend for flat top dots technology in the printing plate industry. These printing plates have a dot that is flat at the top rather than rounded, which leads to more constant and accurate print results.

“Conventional” digitally exposed photopolymer flexographic printing plates generally have a rounded printing point. This is because of the presence of oxygen that has a negative effect on the polymerization of the photopolymer during the UV exposure process and thus causes the dots to shrink.

Oxygen disrupts polymerisation of the photopolymer, resulting in dots with rounded tops.

Screening off the oxygen allows ideal polymerisation, resulting in flat top dots.

There are a number of ways to remove the disruptive oxygen from the exposure process. Listed below are four options that are used by printing plate manufacturers.

Option 1: Kodak (Flexcel NX)

The laminated, laser imaged film prevents direct contact with oxygen during the UV-A exposure process.

Option 2: MacDermid (Lux)

A membrane (thin film) is laminated on to the LAMS and prevents direct contact with oxygen during the UV-A exposure process.

Option 3: Flint (NExT)

Pre-exposure with UV-LED removes the oxygen while simultaneously polymerising the upper plate layer.

Option 4: DuPont (Digiflow)

During the conventional UV-A exposure process, the plate is flooded with an inert gas (nitrogen), which displaces the oxygen.

Which aspects determine the quality of a flexographic printing plate?

All printers have their own specific requirements for flexographic printing plates. While one might be focused on a very rapid production time, another may be concerned solely with printing quality. Others might attach a lot of importance to ecological aspects.

Generally speaking, prepress and plate processing have a considerable influence on the print result. However, the most influential factor is the plate material, which is predetermined and cannot be altered by the user.