IST Metz examines the performance of LED UV with tests on newspaper press

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Racetracks provide ideal conditions for testing potential speeds. In a similar way, newspaper printing presses are the ‘racetracks of the printing industry’. This is why UV supplier IST Metz used a Wifag OF-7 to test out the performance of LED UV technology. The press is located in the production hall of Swiss company Centre d'impression et d'arts graphiques Pressor SA and is equipped with UV curing.

The increasingly widespread nature of LED UV technology in various graphical applications is now piquing interest even in places where this alternative to classic UV curing has barely been used to date. Operators of fast running web presses looking at investing in LED UV technology are especially keen to know exactly how a high performance set up needs to be designed. ‘An ideal response to this question is resilient information about what printing speeds can actually be achieved in the field using an LED UV system as a function of the combination of printing ink and substrate,’ explained Stefan Feil, director technical marketing at IST Metz.

Experience with web printing applications comes primarily from narrow web label printing to date. In this case, maximum press speed rarely exceeds a value of 200 metres per minute. There was a general assumption that current performance is significantly higher, but there was no practical proof of this. IST Metz saw an opportunity to examine this question in newspaper printing. Centre d'impression et d'arts graphiques Pressor SA (Pressor for short) is a customer of the Nürtingen company and has a printing press equipped with UV technology. The Délemont company produces the regional newspaper Le Quotidien Jurassien and the weekly newspaper La Gazette de la region for publishers Editions D+P SA on this newspaper press, a Wifag OF-7 with a web width of 1300 mm and a section length of 940 mm.

When the press was installed in 2007, the UV equipment originally consisted of BLK-3-type UV systems from IST Metz. With the rise in the lo -energy variant of UV printing, Pressor switched to so-called LE UV technology, in which appropriately adapted printing inks are used in addition to specially doped UV lamps. The simultaneous benefit of this switch was that it was possible to reduce the previous number of three UV units for each side of the web to just one UV unit.

For the tests, one of the two LE UV radiators was replaced with an LEDcure system of the LUV 80 type. The choice was a deliberate decision, even though the gap between the radiators and the substrate is 50 mm on this model. In contrast, the more important issue was that the energy is focussed on the web by means of the special arrangement of the LEDs in a line.

This accordingly provided separate UV units for the front and back, simultaneously allowing a comparison between low energy UV and LED UV technology to be made.

With systems from IST Metz, the interchange between different UV technologies is very simple by means of the Hot Swap concept. Last autumn at Labelexpo Europe, the company presented the new product concept for the first time. Since it is suitable for sheetfed, web and narrow web printing alike; its drupa 2016 presence also focused on the concept. With the Hot Swap concept, the UV units can be used interchangeably. A simple change from a LAMPcure to a LEDcure system and vice versa is possible. The peripheral equipment in the machine remains, a joint electrical supply is used.

During the test series with LED UV technology, the maximum mechanical speed of the machine was approached incrementally. This speed is 35,000 revolutions per hour, which means a web speed of 9.14 metres per second (548 metres per minute). Start speed was 8000 revolutions per hour and was increased by 4000 revolutions per hour after every test. The final test series was the one at 32,000 revolutions per hour – a production speed which Pressor frequently achieves in practice. This corresponds to a web speed of 500 metres per minute.

UV curing is affected by a variety of parameters of which the UV system is just one. Other important factors are the material for printing and the printing ink. The obvious choice for a newspaper press was a common 45 g/m2 newsprint paper. A 70 g/m2 matt coated paper quality was tested as a second substrate; this has a more closed surface and thus reduced ink absorption properties.

For printing inks, Pressor uses UV printing inks from hubergroup designed for fast running newspaper printing presses.

In summary, the table shows that curing of the inks when printing on newsprint paper was good across all the speeds tested. In this case, density values of 0.90 were specified as colour density for yellow, magenta and cyan, with 1.10 specified for black. The test results suggest that with an absorbent paper and low print densities, good curing results may also be achievable beyond the maximum speed of 500 metres per minute tested.

When printing on absorbent paper qualities, the good depth curing properties of LED UV curing deliver an additional benefit, as ink which has been absorbed into the paper is reached better than by classic UV radiators. In analogy to classic UV curing, black ink also represents a bigger challenge than the colours when LED UV radiators are used. The cause is the same for both types of ink – black pigments absorb more energy from the UV spectrum than colour pigments, so this energy is then unavailable for initiating polymerisation.

Colour densities for the tests using matt coated paper were at values of 1.30 for yellow, magenta and cyan and 1.50 for black. Initial signs of incomplete curing were found in the black range, in particular, from a press speed of 28,000 revolutions per hour if assessment followed immediately after printing. In spite of this, it was possible to process the paper web to an acceptable quality in the folding unit. If the result was rated after 24 hours, results at 438 metres per minute and 500 metres per minute once again showed good curing.

Overall, IST Metz can draw informative conclusions about the current state of the art in LED UV curing from the test results outlined. One is that when printing using LED UV inks, high production rates can now be achieved. Surface speeds such as those usually achieved on presses for narrow web label printing or in sheetfed offset printing, were exceeded by a significant margin in the test runs on the newspaper press. To guarantee reliable curing, however, it should be ensured in cases which require it that an appropriately modified speed is selected as a function of the substrate used and of ink density - especially when black ink is involved.