Curing of Cellulose Hydrogels by UV Radiation for Mechanical Reinforcement.
Rodybeth Cruz-MedinaDaniel Alejandro Ayala-HernándezAlejandro Vega-RiosErika Ivonne López-MartínezMónica Elvira Mendoza-DuarteAnayansi Estrada-MonjeErasto Armando Zaragoza-ContrerasPublished in: Polymers (2021)
The use of biomaterials as a replacement for thermoplastic polymers is an environmentally sound strategy. In this work, hydrogels of cellulose isolated from wheat husk were modified by UV irradiation (353 nm) to improve mechanical performance. The cellulose was dissolved with a solvent system N,N-dimethylacetamide/lithium chloride (DMAc/LiCl). Infrared spectroscopy showed that the peak height at 1016 cm-1, associated with the C-O bonds of the glycosidic ring, increases with irradiation time. It was determined that the increase in this signal is related to photodegradation, the product of a progressive increase in exposure to UV radiation. The viscoelastic behavior, determined by dynamic mechanical analysis and rotational rheometry, was taken as the most important parameter of this research, showing that the best results are recorded with 15 min of UV treatment. Therefore, at this time or less, the chemical crosslinking is predominant over the photodegradation, producing an increase in the modules, while with 20 min the photodegradation is such that the modules suffer a significant reduction.