| Abstrakt: |
Cellulose is the most abundant polymer in nature. It is used mainly for the production of paper bet also as a reinforcement in the polymer matrixes[1]. The modification of this polysaccharide presents a great interest, for it is the main constituent of agricultural wastes. It is well known that the microcrystalline cellulose gives, after chemical modification, new biodegradable materials[2], which may be used, for instance, for packaging. The esterification of cellulose necessitates an acid pretreatment which makes hydroxyl groups more accessible by breaking hydrogen bonds. X-rays diffraction analysis showed a feeble diminution of the treated samples cristallinity[3]. Cellulose, activated in this way, is esterified in a classic way in DMF, in the presence of triethylamine, LiCl and acid chloride at 60C° for 24 hours[4]. The obtained ester is precipitated in MeOH. The residue, dissolved in CHCl3, gives after evaporation in the open air, a plastic film surface. The water drop test has shown the hydrophobe properties of the plastic film surface. Our work is the study of the preparation of composite materials from the basis of their derivatives. Well as the study of the photopolymerisation kinetic, and the chemical degradation. The obtained films were analyzed by IR-TF, and the volumetrie[5,6]. As a conclusion, we have prepared composite materials with improved properties with reference to the matrix alone. [ABSTRACT FROM AUTHOR] |
