TY - EJOU
AU - Pourghasemi-Soufiani, Vahideh
AU - Amidi-Fazli, Farid
TI - Plasticized Agar-Carboxymethyl Cellulose Based Composites Properties Reinforced with Nanocellulose
T2 - Journal of Renewable Materials
PY - 2025
VL - 13
IS - 5
SN - 2164-6341
AB - Biodegradable packaging has emerged as a viable alternative to non-biodegradable polymers. This study explores different treatments of agar-carboxymethyl cellulose (CMC) nanocomposites developed via the casting method. We investigated the effects of varying glycerol levels (20%–60%) as a plasticizer and nanocellulose levels (0%–30%) as a filler on the properties of agar-CMC nanocomposites. Key properties analyzed included water vapor permeability, solubility in water, moisture absorption, water contact angle, color properties, and mechanical properties. The films exhibited low water vapor permeability, ranging from 2.50 × 10−11 g/msPa to 2.23 × 10−12 g/msPa. Water solubility of the films was below 40%, except for the film containing 60% glycerol. Despite this, all samples demonstrated very low moisture absorption. The water droplet contact angle tests indicated that the film surfaces were moderately hydrophilic. Increasing the nanocellulose content further enhanced the hydrophilicity of the surfaces. The maximum tensile strength and elongation at break recorded were 31.09 MPa and 46.2%, respectively. While adding glycerol reduced tensile strength, it improved elongation at break. Visual observations and color evaluation revealed that the films were transparent, with a low total color difference and a low yellow index. The simultaneous use of both agar and carboxymethyl cellulose polymers in biocomposite formulation successfully mitigated the disadvantages associated with each biopolymer when used alone, thereby enhancing their functional properties.
KW - Agar; carboxymethyl cellulose; glycerol; nanocellulose; nanocomposite
DO - 10.32604/jrm.2025.02024-0009