Abstract
The research of preparing biodegradable composite materials from polypropylene (PP) filled by fibre recovery (FR) from solid waste pulp and paper mill with meleic anhydride (MAH) as coupling agent and benzoil peroxide (BPO) as initiator has been examined. In this study, fillers composition were variaed (PP:FR)%. Composites were obtained by reflux at 170°C for 3 hour and formed to film. The charaterization were done by tensile test, DTA, FT-IR, SEM, and biodegradable test. The result showed that the optimum ratio of composite PP-FR was (90:10)% with tensile strength 17.7 MPa. The tensile strength increased by adding 3% MAH, obtained optimum tensile strength 20.9 MPa at ratio (60:40)% and by adding BPO, the tensile strength more increased to 24.0 MPa at optimum ratio (70:30)%. The reason for this improvement was detected by FT-IR studies of esterification reactions between PP-MAH with filler FR. SEM studies of the surface showed better dispersion of fibres in the matrix, a more effective wetting of fibres by the matrix, and a better adhesion between the two phases. DTA result showed decreasing of decomposition temperature of composite materials.
Key words : Polypropylene, fibre recovery, meleic anhydride

DAFTAR PUSTAKA

Aquino, R. C. M. P., D’ Almeido, J. R. M., dan S. N. Monteiro. 2001. Mechanical Behavior of Cellulignin Based Composites. Journal of Material Science 36(1): pp. 231-236.

Bledzki, A. K., Gassan, J. 1999. Composites Reinforced with Cellulose Based Fibres. Prog. Polym. Sci. 24, p 221–274.

Correa, C. A., Razzino, C. A., dan Hage, E. Jr. 2007. Role of Maleated Coupling Agent on the Interface Adhesion of Polypropylenen-Wood Composites. Vol. 20, 325-339

Felix, J. dan Gatenholm, P. 1991. The Nature of Adhesion in Composites of Modified Cellulose Fibers and Polypropylene. J. Appl. Polymer Sci. 42, 609.

Gassan, J. dan Bledzki, A. K. 1997. The Influence of Fibre-Surface Treatment on the Mechanical Properties of Jute-Polypropylene Composites. Composites A28, 1001

Mohanty, A. K., Misra, M., and Drzal, T. 2002 a. Engineered Natural Fiber Reinforced Polypropylene Composites: Influence of Surface Modifications and Novel Powder Impregnation Processing. J. Adhesion Sci. Technol 8(16): pp. 999-1015.

Paunikallio, T., Kasanen, J., Suvanto, M., dan Pakkanen, T. T. 2003. Influence of Maleated Polypropylene on Mechanical Properties of Composites Made of Viscose Fiber and Polypropylene. Jounal of Applied Polymer Science, Vol 87, 1985-1900

Sanadi, A. R., Caulfield, D. F., Jacobson, R. E., dan Rowell, R. M. 1995. Renewable Agricultural Fibers as Reinforcing Fillers in Plastics: Mechanical Properties of Kenaf Fiber–Polypropylene Composites. Ind. Eng. Chem. Res. 34 (5): pp. 1889- 1896

Woodhams, R. T., Law, S., dan Balatineez, J. J. 1990. Properties and Possible Applications of Wood Fiber-Polypropylene Composites. Proceedings Symposium on Wood Adhesives. Madison

Yang, C. Q. 1993. Infrared Spectroscopy Studies of the Effects of the Catalyst on the Ester Cross-Linking of Celluloses by Poly(carboxylic acids). Journal of Applied Polymer Science 50: 2047 – 2053