PENGARUH PENAMBAHAN MAGNESIUM STEARAT DAN JENIS PROTEIN PADA PEMBUATAN BIODEGRADABLE FOAM DENGAN METODE BAKING PROCESS
Abstract
Biodegradable foam with cassava starch, protein and chitosan as the basic ingredients can be produced by using baking process method. Variation on magnesium stearate amount and protein types gave different effect on the biodegradable foam quality. The amount of magnesium stearate was varied as 1; 1.6; 2.2; 2.8; 3.4 and 4 % w/w and the sources of protein used in this research were taken from soy bean, peanut and egg white. The foam produced in this research was then tested for its mechanical properties, water resistance and biodegradability. It was found that addition of magnesium stearate as much as 4% w/w reduced water adsorption and biodegradability of foam. Magnesium stearate affected the ability of absorption of water and foam degradation, but did not influence on tensile strength. Different types of protein also gave influence on water absorption, biodegradability and tensile strength. The best improvement of tensile strenght among the compounds tested was shown by soy bean based foam.
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Azhari, C. H. dan Wong, S. F. (2001), Mor-phology-Mechanical property Rela-tionship of Polypropilene/Starch Blends. Pakistan Journal of Biologi-cal Sciences, 4 (2001) 693-695
Heddy, S. (2000), Pengaruh dosis EM4 dan pupuk kandang sapi terhadap pertumbuhan dan hasil tanaman sawi (Brassica juncea L.). J.Agritek 8(4): 505-510
Hendritomo, H. dan Isnawan, H., (2010), Pengaruh Pertumbuhan Mikroba terhadap Mutu Kecap Selama Pe-nyimpanan. Jakarta: Pusat Pengka-jian dan Penerapan teknologi Bio-industri.
Kaewtatip, K. dan Tanrattanakul V., (2008), Preparation of cassava starch grafted with polystyrene by suspension polymerization. Carbo- hydrate Polym., 73 647-655
Pablo, Schmidt, V.C., Ortiz, S.E.M., Mauri, A.N., Laurindo, J.B (2007), Structure and morphology of baked starch foams, Polymer 39, 6649–6655.
Salgado, P.R., Schimdt, V.C., Sara, E., (2008) , Biodegradable Foam Based on Cassava Starch, Sun Flower Pro-teins, and Celullose Fibers by a Baking Process. Journal of Food En-gineering 85 435 – 443
Schmidt, V. C., (2006), Desenvolvimento de embalagens biodegrada´veis a partir da fe´cula de cassava, calca´rio e fibra de celulose. Dissetac_ao de Mestrado em Engenharia de Alimentos. Universidade Federal de Santa Catarina (UFSC), Floriano´ polis, Brasil.
Shogren, R. L., Lawton, J. W., Doane, W. M., dan Tiefenbacher, K. F., (1998), Structure and morphology of baked starch foams. Polymer, 39(25), 6649–6655.