Ultraviolet cure kinetics of a acrylate network under varying light intensity

The researchers used real-time Fourier transform infrared (RT-FTir) spectroscopy to measure the acrylate conversion and fast sampling photorheology to measure the developing mechanical properties during cure. Experiments were conducted using a 395 nm LED ultraviolet (UV) source at different incident intensities ranging from 5 to 200 mW/cm² at 25 °C. It was found that the maximum rate of conversion and rate of complex shear modulus development scaled with incident UV intensity (I₀) to an exponent (β) ≈ 0.53. This finding is consistent with the classical prediction of free radical photopolymerisation that cure speed should increase to the ½ power of intensity when a bimolecular termination mechanism takes place during the reaction.

Bimolecular termination predominant

A consequence of this is that the degree of conversion and complex shear modulus were not constant at a fixed energy dose (I₀t) when intensity was varied illustrating that this system does not obey the exposure reciprocity rule. The researchers instead observed that the degree of cure and rheological properties were a universal function of I₀^βt. They also found that β increased only slightly throughout the reaction reaching a value of 0.65 at 95% conversion. This result indicates that bimolecular termination was predominant throughout nearly the entire reaction due to a high degree of molecular mobility in this flexible network.

The study has been published in Progress in Organic Coatings, Volume 158, September 2021.