10.14.09
At Labelexpo ‘09 in Brussels, Siegwerk presented its brand new ink systems for label printing using LED-UV lamps. Along with other benefits, this pioneering technology offers significant energy savings (60 percent and more) and eliminates the need for air exhaustion since no ozone is generated any more during the drying process. At the Gallus booth, Siegwerk’s new LED-UV flexographic inks are used for printing.
Siegwerk is the world’s first printing ink manufacturer to develop the inks needed for the latest UV technology and put them into production. This pioneering achievement involved developing UV flexo printing inks, UV screen printing inks and UV overprint varnishes for the highly specific radiation spectrum of LED-UV light that cure fully despite the low energy and are a match for conventional UV inks in terms of drying speed.
During tests using a suitably equipped flexo printing machine, print speeds in excess of 100 m/min were achieved, with the inks curing flawlessly.
This use of LED-UV drying technology was developed through the joint efforts of Siegwerk Switzerland AG, Phoseon Technology and the Gallus Group, along with its development and production site in Langgöns, Germany.
“The application of this UV-LED drying system which has been successfully implemented with our partners shows that sustainability and innovation can go very well together,” Stefan Heiniger, vice president research and development at the Gallus Group, said.
LEDs (light-emitting diodes) are based on the principle of electroluminescence: a tiny semiconductor panel emits light when subjected to an electric current. This light consumes very little energy, the diodes have an extremely long working life and they generate no ozone.
Unlike conventional UV lamps with mercury tubes, the LED-UV lamp built into the label printing machine consists of innumerable small LED panels arranged across the entire width in multiple rows. The print path can be routed close to the LED panels since very little direct heat is generated. While a conventional UV lamp requires a warm-up phase lasting a few minutes, the LED-UV lamp has no waiting time. The LED-UV lamp emits only a small range of the conventional spectrum of UV lamps. In particular, the high-energy IR radiation and the hazardous UV-B and UV-C radiation are absent.
Due to the extremely narrow wavelength window of the LED-UV lamp (peak at 395 nm), conventional UV inks cannot be dried using the new lamp. This makes the new ink systems developed by Siegwerk indispensable for the LED-UV technology.
As with every innovation, the lamps and inks are currently still somewhat more expensive than those for conventional UV drying. The additional cost amounts to about 15 percent to 20 percent for the inks. However, the much lower energy consumption (savings of 60 percent to 80 percent), the elimination of air exhaustion systems and the greater work safety are powerful arguments that are all clearly in favor of the new LED-UV technology.
Siegwerk is the world’s first printing ink manufacturer to develop the inks needed for the latest UV technology and put them into production. This pioneering achievement involved developing UV flexo printing inks, UV screen printing inks and UV overprint varnishes for the highly specific radiation spectrum of LED-UV light that cure fully despite the low energy and are a match for conventional UV inks in terms of drying speed.
During tests using a suitably equipped flexo printing machine, print speeds in excess of 100 m/min were achieved, with the inks curing flawlessly.
This use of LED-UV drying technology was developed through the joint efforts of Siegwerk Switzerland AG, Phoseon Technology and the Gallus Group, along with its development and production site in Langgöns, Germany.
“The application of this UV-LED drying system which has been successfully implemented with our partners shows that sustainability and innovation can go very well together,” Stefan Heiniger, vice president research and development at the Gallus Group, said.
LEDs (light-emitting diodes) are based on the principle of electroluminescence: a tiny semiconductor panel emits light when subjected to an electric current. This light consumes very little energy, the diodes have an extremely long working life and they generate no ozone.
Unlike conventional UV lamps with mercury tubes, the LED-UV lamp built into the label printing machine consists of innumerable small LED panels arranged across the entire width in multiple rows. The print path can be routed close to the LED panels since very little direct heat is generated. While a conventional UV lamp requires a warm-up phase lasting a few minutes, the LED-UV lamp has no waiting time. The LED-UV lamp emits only a small range of the conventional spectrum of UV lamps. In particular, the high-energy IR radiation and the hazardous UV-B and UV-C radiation are absent.
Due to the extremely narrow wavelength window of the LED-UV lamp (peak at 395 nm), conventional UV inks cannot be dried using the new lamp. This makes the new ink systems developed by Siegwerk indispensable for the LED-UV technology.
As with every innovation, the lamps and inks are currently still somewhat more expensive than those for conventional UV drying. The additional cost amounts to about 15 percent to 20 percent for the inks. However, the much lower energy consumption (savings of 60 percent to 80 percent), the elimination of air exhaustion systems and the greater work safety are powerful arguments that are all clearly in favor of the new LED-UV technology.