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Tuesday, 20 October 2020
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Raw materials & technologies, Technologies

Radiation crosslinking of pigmented coating material by UV LEDs

Tuesday, 29 September 2020

A study decribes radiation crosslinking of pigmented coating material that enablis depth curing and preventing oxygen inhibition.

Applying a UV-C LED at 278 nm decreased the tackiness on the surface caused by oxygen inhibition. Image source: Quelle doctor-a - Pixabay (symbol image).
Applying a UV-C LED at 278 nm decreased the tackiness on the surface caused by oxygen inhibition. Image source: Quelle doctor-a - Pixabay (symbol i...

LED light sources emit in a small wavelength region, e.g. in the blue light and UV-A. These LEDs can be applied for the radiation curing via radical polymerisation, which is a growing sector in the coating industry. LEDs will in prospect substitute mercury arc lamps as the light sources, but development of higher intense LEDs and also in the UV-B or UV-C range is still in progress.

In the actual report the efficiency of initiator systems was analysed for the photopolymerisation of UDMA. The chosen systems are usually used in the coating industry and others were invented in the dentistry and holography. The aim is the depth curing of urethane dimethacrylate (UDMA) with the help of UV LEDs at 365 nm, 395 nm, and 405 nm.

Insights in the influence of the light

The overlap of the absorbance of the initiator systems and the emission of the LED is discussed regarding the reactivity in the top layer and a thickness up to 20 mm hereby giving insights in the influence of the light source and the reactivity or spectral properties of the initiator system on the photopolymerisation process.

Surprisingly, the initiator systems like Ivocerin, and HABI-mercapto, which are unusual as initiators for the curing of coatings, show a high efficiency. Even pigmented and filled systems are curable up to a depth of 4–20 mm, respectively. Furthermore, applying a UV-C LED at 278 nm and using these initiators also decrease the tackiness on the surface caused by oxygen inhibition.

The study has been published in Progress in Organic Coatings, Volume 144, July 2020.

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