Jurnal Sains dan Teknologi Reaksi

Styrofoam is one type of food packaging that we often find. Styrofoam has excellent heat and cold resistance so it is used as an insulator. The ability to withstand good temperatures, lightweight and practical encourages the use of styrofoam as a food and beverage packaging material. However, Styrofoam contains many harmful substances and is not environmentally friendly. One solution is to replace the material for making styrofoam which is environmentally friendly called biodegradable foam. Sugarcane bagasse fiber has the potential as a basic material for making biodegradable foam. The purpose of this experiment is to determine the effect of the addition of bagasse fiber on the characteristics of biodegradable foam. This experiment uses a complete randomized design method with sugarcane bagasse fiber concentration treatment. The characteristic tests carried out include tensile strength test, water absorption test, biodegradation test, and thermogravimetric analysis. From the results of bagasse fiber decomposed 9,130 mg and still remaining 1,13 mg. The optimum concentration of biodegradable foam bagasse fiber on water absorption, biodegradation rate, and tensile strength in the 90:10 composition sample. The results of functional group analysis showed O-H and C-O groups which indicated that biodegradable foam is easily degraded by microorganisms in the soil.

Keywords: Biodegradable foam, bagasse, cassava starch, packaging.

Sulchan M and Endang NW. "Food Safety of Plastic and Styrofoam Packaging". Indonesian Medical Magazine 57, no. 2 (2007): h. 54-59.

Khairunnisa, S. (2016). Styrofoam Waste Processing into Fashion Products. E-Proceedings of Art and Design, 3(2), 253-268

Daulay. "Variation of Phenol Formaldehyde Styrofoam Phenol Size and Adhesive Composition on the Quality of Particle Board from Palm Oil Stem Waste". Thesis, Sumatra: Faculty of Agriculture, North Sumatra, 2014.

Trisia A. Farrelly and Ian C. Shaw (2017) Polystyrene as Hazardous Household Waste.http://dx.doi.org/10.5772/65865.

Wicaksono, Bagas. "Processing Styrofoam Waste, Orange Peel and Sanseveiria Fiber into Synthetic Yarns with Economic Value". Thesis, Bogor: Faculty of Agricultural Technology, Bogor Agricultural University, 2011.

US Environmental Protection Agency (US-EPA), 1970.

Rokhman, H., Taryono, & Supriyanta. (2014). Number of tillers and yield of six clones of sugarcane (Saccharum officinarum L.) from mule seeds, single eye nodes and single buds. Vegetarianism, 3(3): 89-96.

Purnawan, C., Hilmiyana, D., Wantini., & Fatmawati, E. (2012). Utilization of Bagasse Waste for Decorative Paper Making Using the Organosolv Method. Journal of Ecoscience, 4(2): 1-6.

Fang, Q., and Hanna, M., (2015), Preparation and characterization of biodegradable copolyester–starch based foams. Bioresource Technology, 78 (2):155-122..

Inggaweni, L. (2015). Characterization of mechanical properties of biodegradable plastic from high density polyethylene (HDPE) and cassava peel starch composites. In the National Chemistry Seminar. Surabaya, Indonesia: State University of Surabaya.

Foam, B., & Process, B. (2015). Journal of Renewable Natural Materials Effect of Addition of Magnesium Stearate and Type of Protein in Making Biofoam from Cassava Starch. 4(9), 34–39. https://doi.org/10.15294/jbat.v4i2.4166

Algado, PR, Schimdt, VC, Sara, E., (2008), Biodegradable Foam Based On Cassava Starch, Sun Flower Proteins, and Cellulose Fibers by a Baking Process. Journal of Food Engineering 85. 435-443.

Hendrawati, N., Dewi, EN, Santosa, S., Chemistry, JT, Malang, PN, & No, JS (2019). Characterization of Biodegradable Foam from Modified Sago Starch with Chitosan as an Additive. 3(9), 47–52.

Derived, BF, Friendly, E., & Packaging, F. (2018). Biodegradable Foam from Banana Weevils and Nagarat Sweet Potatoes as Environmentally Friendly Food Packaging. 33–42.