Preparation and characterization of a biodegradable polymer from cassava starch

Preparation and characterization of a biodegradable polymer from cassava starch

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Gladys Ruiz Universidad EAFIT, Medellín, Colombia
Abstract
This study focuses on the preparation of tapioca starch biodegradable polymer, processed by blends of starch modified with glycerine and water as plasticizers, by using roll mill and a single–screw extruder in the process. During extrusion, there is a series of variables to control namely: the barrel temperature profile, screw torque and screw rotation speed. Tensile test, Differential Scanning Calorimetric (DSC), Thermogravimetric Analysis (TGA), Fourier Transformer Infrared Spectroscopy (FTIR) and morphology were used in the process.
Keywords

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Author Biography / See

Gladys Ruiz, Universidad EAFIT, Medellín, Colombia

M. Sc. en Ingeniería de Procesamiento de Polímeros, profesora titular, Universidad EAFIT
References / See

Aburto, J., Alric, I., Thiebaud, S., Borredon, E., Bikiaris, D., Prinos, J. & Panayiotou, C. (1999). Synthesis characterization and biodegradability of fatty acid esters of amilose and starch. Journal of Applied Polymer Science, 74(6), pp. 1440-1452.

Averous, L., Fauconnier, N., Moro, L. & Fringant, C. (2000). Blends of thermoplastic starch and polyesteramide processing and properties. Journal of Appied Polymer Science, 76(7), pp.1117-1128.

Biocorp (2002). Gentechnik und vegetative Vermehrung – Gentechnik als Rettung der Banane? Revisado el 22 de Setiembre, 2013, disponible en http://www.biocorpusa.com.

Conley, R. (1979). Espectroscopía infrarroja. Madrid: Editorial Alambra.

Demicheli, M. (2000). Biodegradable plastics from renewable sources. Revisado el 22 de Setiembre, 2013, disponible en http://www.jrc.es/pages/iptsreport/vol10/english/Env1E106.htm.

Fritz, H. (1994). Study of production of thermoplastics and fibers based mainly on biological material. European commission: Stuttgart German.

Lai, L. & Kokini, J. (1991). Phisicochemical changes and reological properties of starch during extrusion (a review). Biotechnologie Program, 7(3), pp. 251-266.

Matzinos, P., Bikiaris, D., Kokkou, S. & Panayiotou, C. (2000). Processing and characterization of LDPE/starch products. Journal of Applied Polymer Science, 79(14), pp. 2548-2557.

Mark, J., Peterson, B., Eman, B., Bahar, I. & Kloczkowski (2001). High performance biodegradable materials from oriented starch derivates. Cincinnati, USA: U. S. patent 6 218 532.

Mali, S., Grossmann, V., García, M., Martino, M. & Zaritsky, N. (2002). Microestructural characterization of Yam starch films. Carbohydrate Polymers, 50(4), pp. 379-386.

Van Soest, J., Wit, D. & Vliegenthart, J. (1996). Mechanical properties of thermoplastic waxy maize starch. Journal of Applied Polymer Science, 61(11), pp. 1927-1937.

Whistler, R. & BeMiller, J. (1997). Carbohydrate chemistry for food scientists. State Paul: Eagan Press.

Wolfe, D. (1996). Química General Orgánica (2do edición). México: McGraw-Hill.

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