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query Plan EssayBackground of the surveySolid profusion management is increasingly seen as a major issue in the country collectible to highschool rates of urbanization and increasing per capita solid blow out generation with greater affluence (Petnamsin, et al., 2000). A major subdivision of solid waste is resin based moldable. Plastics posses many properties such as pissing justification and eagle-eyed life, that owns them perfect candidates for advancement. Unfortunately, the properties that make this overlap suitable for packaging also are the major defecate of the environmental problems related to packaging. Given the wide use of ductiles, the magnitude of the environmental problem is large and long scathe. The choices for dealing with this waste are limited as incineration of tensile polymers invariably results in the generation of deadly emissions (Srorith, et al., 2000). The only visible solution is to bury the tangible in landfills. However, this ap proach is also limited because of the distasteful nature of plastic to biological degradation. jak genus Artocarpus heterophyllus Lam. is a popular increase-crop that is widely grown in tropical areas. Often, its seeds are discarded because of the preferred well-flavored yellow sweet bulb for consumption. The seeds have high loot and protein content, hence, an abundant source of amylum (Kurian, 2010). Starch is identified as a key natural product for the exertion of biodegradable plastic (Pranamuda, et al., 2006).Based on the above information, the researchers decided to do research drill on amylum-based biodegradable plastic from seaman seeds. Henceforth, in that respect is a need to establish the additive holding of stiffen from old salt seeds as scientific basis for its use in the production of biodegradable plastic.Objectives of the StudyThe engage result aim to find out if knave Artocarpus heterophyllus Lam.seeds can be a main component in the production of biode gradable plastic. Specific wholey, the subject field go forth 1. determine the efficacy of starch from jackfruit A.heterophyllus Lam. seeds at varying concentrations as additives in the production of biodegradable plastic. 2. compare the machinelike properties surrounded by the contractd biodegradable plastic from starch of jackfruit A.heterophyllus Lam. seeds, and commercially watchful plastic, polyethylene in terms of bendable strength, flammability, soil biodegradability and air test. 3. compare the effects of vitriolics and bases and organic solvents between produced biodegradable plastic from starch of jackfruit seeds and commercially prepared plastic, polyethylene.Hypotheses of the StudyThe avocation hypotheses testament be put forward1. in that respect is no significant difference in the efficacy of starch from jackfruit seeds at varying concentrations in the production of biodegradable plastic. 2. There is no significant difference on the mechanical properties be tween the produced biodegradable plastic from starch ofjackfruit seeds and commercially prepared plastic, polyethylene in terms of tensile strength, flammability, soil biodegradability and air test. 3. There is no significant difference on the effects of acids and bases and organic solvents between produced biodegradable plastic from starch of jackfruit seeds and commercially prepared plastic polyethylene.Significance of the StudyThe results of the study would be beneficial and cooperative to the manufacturing plastic industries because it would relieve negative effects of overproducing plastics. By changing its raw materials and components, commercial plastic may be improved so that it would become biodegradable while retaining its good quality. Moreover,this component from starch of jackfruit seeds would help in the natural decomposition of plastic raw materials. Thus, a convenient way of minimizing waste management problem in the country, more so, the high demand for plastics w ould give the world the hazard of food waste problem, therefore, utilizing starch from jackfruit seeds as component in the production of biodegradable plastics would be the congenator answer. chain of mountains and Limitations of the StudyThe study provide focus only on the starch-based biodegradable plastic from jackfruitA.heterophyllus Lam. seeds. It go forth be conducted at the Physics/Chemistry Laboratory of Antique National School, San Jose de Buenavista, Antique from July 15, 2011 to folk 30, 2011.The variables to be evaluated depart be the effect of starch from jackfruit seeds at varying concentrations for the production of biodegradable plastic the mechanical properties between the produced biodegradable plastic from starch of jackfruit seeds and commercially prepared plastic, polyethylene in terms of tensile strength, flammability, soil biodegradability and air testthe effects of acids and bases and organic solvents between the produced biodegradable plastic from the starch of jackfruit seeds and commercially prepared plastic, polyethylene.Analysis of Variance (ANOVA) and Duncan Multiple Range Test (DMRT) will be used as statistical tools to identify the significant differences among treatment means and their interactions at 0.01 and 0.05 levels of significance, respectively.Definition of basisBiodegradable.A substance or property of the produce plastic in the study that can be blue down into simpler substances by the activities of living organisms for decomposition.Plastic. An end product obtained mainly as a result of the study using starch from jackfruit seeds as main component mixing with new(prenominal) components for biodegradable formation.Starch. A complex carbohydrate extracted from jackfruit seeds and used in the study for the production of biodegradable plastic.Polyvinyl Alcohol. An odorless, colorless, tasteless, thermoplastic unreal resin used in the study that is soluble in piddle and insoluble in gross organic solvents.Glyce rol. A simplest trihydric and commonly called glycerol in commercialform that is used in the study for the production of biodegradable plastic.CHAPTER 2REVIEW OF RELATED LITERATUREAfter neglectting talahib pulps into very dainty pieces, they were combined with different chemicals such as polyvinyl alcohol, sodium hydroxide in aqueous solution, glue, and glycerol to produce biodegradable plastics with different amounts of talahib pulp. (Valdez, 2009).A study determined the effectiveness of cassava starch as component of biodegradable plastic. Results confirmed that cassava starch is ideal as tests proved its worth (Romero, 2007).It was known that starch-based packaging materials are produced from extrusion or compression technology and have been developed as a interpose for polystyrene in producing loose-filters and other expanded items. The type of starch and synthetic polymer as well as their relative proportions in the blends may influence the properties of the resulting plast ics (Sriroth and Sangseethong, 2003).Some physicochemical and rheological properties of jackfruit seed flour and starch, discriminate from the flour were investigated. The flour had good capacities for water submergence and oil absorption. Flour from jackfruit seed was prepared by dry milling. It is high in protein and carbohydrate contents. The flour has good water and oil absorption abilities (Tulyathan, 2002). The range of possible applications for starch plastics is restricted by their sensitivity tomoisture and water contact and high water vapour permeability.The biodegradability of starch plastics largely depends on the biodegradability of the copolymer. High copolymer content can adversely affect biodegradability due to the complex interaction of starch and polyester at the molecular level (DegliInnocentiBastioli, 2002). Starch is unique among carbohydrates because it occurs naturally as discrete granules. This is because the short branched amylopectin chains are able to fo rm helical structures whichcrystallize. Starch granules edgehydrophilic properties and strong inter-molecular association via hydrogen bonding due to the hydroxyl groups on the granule surface (Daniel et al., 2000).Jackfruit Artocarpus heterophyllus Lam. is a popular fruit-crop that is widely grown in the Philippines and other tropical areas. The ripe fruit contains well-flavored yellow sweet bulbs which are consumed fresh or processed into canned products and seeds embedded in the bulb. Seeds make up around 10-15% of the total fruit weight and have high carbohydrate and protein content and are normally discarded or steamed and eaten as a snack or used in some local dishes. As fresh seeds cannot be kept for a long time, using them as source of starch is advisable (Bobbio et al 1978). Based on the above review of related literature, there is a need to conduct a study on starch-based biodegradable plastic from jackfruit Artocarpus heterophyllus Lam. seeds and because in all studies, nothing has been mentioned about jackfruit seeds as component of biodegradable plastics.CHAPTER 3MATERIALS AND METHODSThe lessen of processes on starch-based biodegradable plastic from jackfruit Artocarpus heterophyllus Lam. seeds is shown in Figure 1.Collection and Preparation of Research Materials, Tools and EquipmentThe researchers will collect three (3) kilograms of jackfruit seeds from the source for two (2) days before the conduct of the study. These will be brought to the Physics/Chemistry Laboratory of Antique National School, San Jose de Buenavista, Antique.Technically grade ethanol, hydrochloric acid, acetic acid and sodium hydroxide, ammonia, distilled water, chlorine, polyvinyl alcohol, epoxydized soy bean oil, and glycerol will be obtained from chemworks, Inc.Jaro, Iloilo City prior to the conduct of the study.The other materials and equipment needed will be mortar and pestle, grinder, beakers, alcohol lamp, rolling pin, aluminum foil, stirring rod, molders, spring bal ance, threefold beam balance, tray, plastic cups, graduated cylinder, stopwatch, and vehement plate.Research Procedure/ Experimental DesignThree (3) kilograms of jackfruit seeds will be rinsed and washed in running water and will be air-dried for twenty-four (24) hours at room temperature. After air-drying, the seeds will be peeled manually. Then the seeds will be cut into smaller pieces and ground using an electric grinder. The ground jackfruit seeds will be added with water following the ratio 12, one (1) liter of distilled water to two (2) kilograms of ground jackfruit seeds. The mixtures will be placed inside the beaker for decantation for three (3) hours.After decantation, the supernatant will be discarded and the settling material will be collected and placed in an evaporating dish for the starch sediments to settle. This will be preserved for five (5) hours to let the water evaporate completely. After the evaporation process, the collected starch sediments will be ground u sing mortar and pestle until it will turn into powdered form. The produced starch will be weighed and placed in a sterilized container ready for experimentation.Measured amount of the water and jackfruit starch based on different treatments will be mixed and boiled using a acid plate at eighty (80(C) degrees Celsius until it will form into a sticky paste. After removing the starch-water mixture from the hot plate, the rest of the materials will be added such as polyvinyl alcohol, epoxydized soja bean bean oil, and glycerol. After mixing all the materials, the mixture will be heated again using a hot plate at a temperature of one hundred eighteen to one hundred twenty (118-120(C) degrees Celsius for seven (7) minutes. Then it will pass through a rolling pin and transferred to containers for sun-drying process until the plastic will be formed. The plastic will be cut into strips (3 cm wide by 5 cm long) for mechanical property, effects of acid and base, and organic solvents tests, r espectively.The experiment will use five (5) treatments with three (3) replicates each.The duration of the experimental activities will be seventy-eight (78) days that will begin on July 15, 2011 and will end on September 30, 2011.The five (5) treatments that will be used in the study are as follows. Treatment A = 100 grams starch + 100 grams water + 100 grams polyvinyl alcohol + 2.5 grams epoxydized soya bean oil +10 grams glycerin Treatment B = 75 grams starch + 100 grams water + 100 grams polyvinyl alcohol + 2.5 grams epoxydized soya bean oil +10 grams glycerin Treatment C = 50 grams starch + 100 grams water + 100 grams polyvinyl alcohol + 2.5 grams epoxydized soya bean oil +10 grams glycerin Treatment D = 25 grams starch + 100 grams water + 100 grams polyvinyl alcohol + 2.5 grams epoxydized soya bean oil +10 grams glycerin Treatment E Control Commercial plastic (polyethylene)Gathering of DataThe cut samples of the produced biodegradable plastic will be subjected to the followi ng testsFlammability Test. The strips of the produced biodegradable plastic and commercial plastic with the same dimensions will be completely burned using alcohol lamp and the burning time will be noted.Soil Biodegradability Test. The plastic strips will be stapled to a piece of cardboard and will be buried in a can of soil. The strips will be unearthed after a week and the nett dimension will be recorded.Tensile Strength Test. The plastic strips will be hooked to a spring balance and will be pulled until they will tear apart. The reading of the balance when the plastic strips will break will be recorded.Effects of Strong and Weak Acids and Strong and Weak Bases.The plastic strips will be immersed in heavy strong/weak acids and strong/weak bases for thirty (30) minutes. Changes in length, width, and appearance will be noted.organic Solvent Tests. The plastic strips will be immersed in a bottle ofchlorinated water/ethanol. The bottle will be sealed so as to isolate its contents fr om the external environment. After a week, their final dimensions will be noted.