ABSTRACT
Radiation curing technologies, including ultraviolet (UV) and electron beam curing, have received increasing attention especially after the increasing concerns on energy consumption, environmental protection, and occupational health and safety. Ultraviolet (UV)-curable polymerization are progressively being utilized in numerous manufacturing since they can be speedily applied in addition to their outstanding physical properties such as excellent surface quality, productivity, and slow energy consuming.This paper briefly reviews the research milestones in the area of wood chemical modification, focusing on the basic principles and applications of UV curable systems and polymerization. The study also extends to highlight the effect of lignin incorporation into UV curable system on coating quality, thermal stability, chemical resistance and mechanical properties.
Graphical abstract
![](/cms/asset/85c39d3b-16fb-4eb9-bdf5-01d6ca098b92/lpte_a_1750649_uf0001_oc.jpg)
Highlights
To use lignin as a raw material/reactive component in a UV curable system.
To investigate the effect of the lignin content on UV curable system.
To study the effect of chemical modification of lignin on the film properties produced by UV radiation.
Additional information
Notes on contributors
Qana A. Alsulami
Qana A. Alsulami is an assistant professor at King Abdulaziz University (KAU), Saudi Arabia. She got her PhD from Michigan Technological University, Houghton, Michigan, USA in 2017.
Soha M. Albukhari
Soha M. Albukhari an assistant professor at King Abdulaziz University (KAU), Saudi Arabia. She got her PhD from King Abdullah University of Science and Technology (KAUST) in 2016.
Mahmoud A. Hussein
Mahmoud A. Hussein is a professor at KAU. He got a post doctoral position at the University of Nice Sophia Antipolis, France and University Sains Malaysia (USM), Malaysia. He visited school of USM and Faculty of Engineering, University of Porto (UP) as visiting researcher. His research interests in the area of polymers polymer composites, and other smart materials. Lignocellulosic - thermoplastics composites.
G. S. Tay
G. S. Tay is an associate professor at USM. He pursued his post doctorate study in Faculty of Engineering, Fukui University of Technology, Japan. His research interests are on lignocellulosic based polymer composites and chemical modification of lignocellulosic materials for enhancing its properties.
H. D. Rozman
H. D. Rozman is a professor at USM, previous dean for the school of industrial technology at USM. Expertise: chemical modification of wood, lignocellulosic - thermoplastics composites, advanced / conventional wood composites.