Analisis Nilai Tambah Tapioka sebagai Bahan Baku Bioplastik

Pracella M, Minhaz ULH, Alvarez V. 2010. Functionalization, compatibilization and properties of polyolefin composites with natural fibers. Polymers 2: 554-574. Prachayawarakorn J, Sangnitidej P, Boonpasith P. 2010. Properties of thermoplastic rice starch composites reinforced by cotton fiber or low- density polyethylene. Carbohydrate Polymers 81: 425 –433. Pranamuda H. 2001. Pengembangan plastik biodegradabel berbahan baku pati tropis. http:www.std.ryu.titech.ac.jpindonesiazoapaperpfmakalah hardaning pdf. Psomiadou E, Arvanitoyannis PI, Biliaderis CG, Ogawa H, Kawasaki N. 1997. Biodegradable films made from low density polyethylene LDPE, wheat starch and soluble starch for food packaging applications. Part 2. Carbohydrate Polymers 33: 227-242. Pushpadass HA, Robert WW, Joseph JD, Milford AH. 2010. Biodegradation characteristics of starch –polystyrene loose-fill foams. in a composting medium. Bioresource Technology 101: 7258 –7264. Rabek FJ. 1996. Photodegradation of polymers. Physical characteristics and applications. Springer, Berlin. Rahman S. 2008. Plastik ramah lingkungan. Majalah polimer. Sentra Teknologi Polimer. BPPT. Serpong. Razzak MT, Widadi A, Darsono, Soedarini S. 1996. Karakteristik kopolimer tempel LDPE-g-PDMAEA. Aplikasi Isotop dan Radiasi. Riaz U, Vashist A, Ahmad SA, Ahmad S, Ashraf SM . 2010. Compatibility and biodegradability studies of linseed oil epoxy and PVC blends. Biomass and bioenergy 34: 396 – 401. Rickard JE, Asaoka M, Blanshard JMV. 1991. The physico-chemical properties of Cassava Starch. Review Crop Sci. 31 : 189-207. Rimdusit S, Jingjid S, Damrongsakkul S, Tiptipakorn S, Takeichi T. 2008. Biodegradability and property characterizations of methyl cellulose: effect of nanocompositing and chemical crosslinking. Carbohydrate Polymers. 72: 444 –455. Rivero IE, Balsamo V, Müller AJ. 2009. Microwave-assisted modification of starch for compatibilizing LLDPEstarch blends. Carbohydrate Polymers. 75: 343 –350. Rodriguez-Gonzalez FJ, Ramsay BA, Favis BD. 2004. Rheological and thermal properties of thermoplastic starch with high glycerol content. Carbohydrate Polymers. 58. 139 –147. Rozman HD, Tan KW, Kumar RN, Abubakar A, Mohd. Ishak ZA, Ismail H. 2000. The effect of lignin as a compatibilizer on the physical properties of coconut fiber-polypropylene composites. European Polymer Journal 36: 1483-1494. Sajilata MG, Singhal RS, Kulkarni PR. 2006. Resistant starch - a review. Comprehensive reviews in food science and food safety. Vol. 5. Salmoral EM, Gonzalez ME, Mariscal MP. 2000. Biodegradable plastic made from bean products. Industrial Crops and Products 11 : 217 –225. Sanchez-Garcia MD, Gimenez E, Lagaron JM. 2008. Morphology and barrier properties of solvent cast compositesof thermoplastic biopolymers and purified cellulose fibers. Carbohydrate Polymers 71: 235 –244. Shah AA, Hasan F, Hameed A, Ahmed S, 2008. Biological degradation of plastics: a comprehensive review. Biotechnol. Adv. 26: 246 –265. Shokri AA, Bakhshandeh GR, Farahani D . 2005. Effect of anhydride additives on mechanical and rheological properties of NBRPVC blends. Proceeding of the 8th polymers for advanced technologies international symposium. Budapest, Hungary, 13-16 September 2005. Shujun W, Jiugao Y, Jinglin Y. 2005. Preparation and characterization of compatible thermoplastic starchpolyethylene. Polymer Degradation Stab. 472:165-173. Singh B , Sharma N. 2008. Mechanistic implications of plastic degradation. Polymer Degradation and Stability 93: 561-584. Sitepu IP. 2009. Pengaruh konsentrasi MA terhadap terhadap derajat grafting MA pada HDPE dengan inisiator benzoail perioksida. Dep. Kimia. Fak. MIPA. USU. Smith R. 2005. Biodegradable Polymers for Industrial Applications. CRC Press. Boca Raton New York-Washington DC. Song Y, Zheng Q. 2008. Improved tensile strength of glycerol-plasticized gluten bioplastic containing hydrophobic liquids. Bioresource Technology 99: 7665-7671. Sopyan I. 2007. Struktur kimia dan sifat-sifat polimer. Kimia Polimer. Hal 128- 134. PT Pradnya Paramita. Jakarta. Sothornvit R, Pitak N. 2007. Oxygen permeability and mechanical properties of banana films. Food Research International 40 : 365-370. Souza AC , Benze R , Ferrão ES , Ditchfield C , Coelho ACV , Tadini CC. 2012. Cassava starch biodegradable films: Influence of glycerol and clay nanoparticlescontent on tensile and barrier properties and glass transition temperature. Food Science and Technology 46: 110-117. Sriroth K, Santisopari V, Petchalanuwat C, Kurotjanawong K, Piyachomkwan K, Oates CG. 1999. Cassava starch granule structure function properties: influences of time and conditions at harvest on cultivars of cassava starch. Carbohydrates Polymer 38 : 161-170. Steinbuchel A. 1995. Use of synthetic, biodegradable thermoplastics and elantomerr from renewable resources- The Pros and Cons. J. Macromol. Sci. Pure Appl. Chem. A. 32 4: 653-60. Stevens MP. 2007. Polymer chemistry. Lis Sopyan. Penerjemah. PT. Pradnya Paramita. Jakarta. St-Pierre N, Favis BD, Ramsay BA, Ramsay JA, Verhoogt H. 1997. Processing and characterization of thermoplastic starch-polyethylene blends. Polymer 38: 647 –655. Sun S, Song Y, Zheng Q. 2008. Thermo-molded wheat gluten plastics plasticized with glycerol: Effect of molding temperature. Food Hydrocolloids 22: 1006 –1013. Surdia T, Saito S. 1985. Pengetahuan Bahan Teknik. PT. Pradnya Paramita. Jakarta. Swinkels JJM. 1985. Composition and properties of commercial native starch. StarchStaerke 37: 1-5. Tang X, Alavi S. 2011. Recent advances in starch, polyvinyl alcohol based polymer blends,nanocomposites and their biodegradability. Carbohydrate Polymers 85: 7 –16. Tena-Salcido CS, Rodríguez-González FJ, Méndez-Hernández ML, Contreras- Esquivel JC. 2008. Polymer Bulletin 60: 677 –688. Thunwall M, Kuthanova V, Boldizar A, Rigdahl M. 2008. Film blowing of thermoplastic starch. Carbohydrate Polymers 71: 583 –590. Van Soest JJG, Borger DB. 1997. Structure and properties of compressionmolded thermoplastic starch materials from normal and high-amylose maize starches. Journal of Applied Polymer Science 644: 631 –644. Wade LG. 1991. Kimia Polimer. PT. Pradya Paramita. Jakarta. Wang YJ, Liu W. 2002. Morphology and properties of low density polyethylene and rice starch composite. Rice Quality and Processing 34 4: 419-425. Wang Z, Qu B, Fan W, Hu Y, Shen X. 2002. Effects of PE-g-DBM as a compatiblizer on mechanical properties and crystallization behaviors of magnesium hydroxide-based LLDPE blends. Polymer Degradation and Stability 76: 123 –128. Wypych G. 1995. Handbook of Material Weathering, 2 nd Edn. ChemTec Publishing, Toronto-Scarborough, Ontario, Canada. Yam YL, Gas permeation of packaging material. The Wiley Ensyclopedia of packaging Technology. 3 rd edition. Canada. John WileySons Inc. 551- 555. Yao F, Wu Q , Lei Y, Xu Y. 2008. Rice straw fiber-reinforced high-density polyethylene composite: Effect of fiber type and loading. Industrial crops and products 2 8: 63 –72. Ying T, Pi-xin1 W, Kun X, Hui-yong AN, Li-song D. 2010. Starchpolycaprolactone blends compatibilized with starch modified polyurethane. Chem. Res. Chinese. Universities 3 : 483-487. Yokesahachart C, Yoksan R. 2011. Effect of amphiphilic molecules on characteristics and tensile properties of thermoplastic starch and its blends with polylactic acid. Carbohydrate Polymers 83 : 22 –31. Yu J, Chen S, Gao J, Zheng H, Zhang J, Lin T. 1998. A study on the properties of of starchglycerine blend. Starch 50: 246 –250. Yu L. 2009. Biodegradable polymer blends and composites from renewable resources. Publised by John Wiley and Sons, Inc Hoboken, New Jersey. Hal: 351. Yuliasih I, Sunarti TC, Waryat, Misgiyarta. 2010. Pembuatan bioplastik untuk kemasan pangan berbasis onggok. Laporan Hasil Penelitian KKP3T. IPB. Bogor. Yuniari A. 2010. Morfologi dan sifat fisika polipaduan LDPE-pati tergrafting maleat anhidrat. Jurnal Riset Industri 53 : 239-247. Zhang QX, Yu ZZ, Xie XL, Naito K, Kagawa Y. 2007. Preparation crystalline morphology of biodegradable starchclay Nanocomposites. Polymer 48: 7193-7200. Zhou J, Yan F. 2004. Effect of Polyethylene-graft-maleic anhydride as compatibilizer on the mechanical and tribological behaviours of ultrahigh molecular weight polyethylenecopper composites. Journal Applied Polymer Science 93: 948-955.