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BIO Plastic.. an alternative to current plastic…. It’s a nascent initiative to create a world which will be eco friendly………. GO GREEN !!. BIOPLASTICS or organic plastics are a form of plastics derived
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BIO Plastic.. an alternative to current plastic…. It’s a nascent initiative to create a world which will be eco friendly………
BIOPLASTICSor organic plasticsare a form of plastics derived from renewable biomass sources, such as vegetable oil, corn starch, pea starch, or Microbiota, rather than fossil-fuel plastics which are derived from petroleum. Biodegradable plastics combine the utility of plastics (lightweight, resistance, relative low cost) with the ability to completely and fully biodegrade. What are BIOPLASTICS ?
Types of bio plastics The different types of bio plastics include – • Starch Based Plastics • Polyhydroalkanoates ( PHA’s ) • Poly-3-hydrobutyrate ( PHB’s ) • Polylactic Acid ( PLA) • Oxo - Biodegradable Plastics • Genetically Modified Plastics
Among the different types of biodegradable plastics, Starch based plastics constitute about 50% of the bioplastics market. Thermoplastic starch, such as Plastarch Material, currently represents the most important and widely used bioplastic. Flexibiliser and plasticizer such as sorbitol and glycerin are added to the starch. By varying the amounts of these additives, the characteristic of the material can be tailored to specific needs (also called "thermo-plastical starch"). Starch based BIOPLASTICS
Here, the main ingredients used are - CORNFLOUR, WATER , GLYCERIN, and VINEGAR Ingredients
Corn flour contains STARCH, which is the main ingredient of the Bioplastic. Basically, Starch is made of long chains of glucose molecules joined together. Strictly, it contains two polymers: AMYLOSE and AMYLOPECTIN Chemistry Inside
AMYLOSE This is a long straight-chained polymer. This is a very useful polymer as it would give strength to the plastic. Polymers in Starch
AMYLOPECTIN This is branched. When starch is dried from an aqueous solution it forms a film due to hydrogen bonding between the chains. However, the AMYLOPECTINinhibits the formation of the film, as it makes the plastic brittle. Reacting the starch with a chemical like vinegar breaks down the amylopectin, giving strenght to our plastic. Polymers in Starch
Process of making Bioplastic GREENER EARTH BIODEGRADABLE PLASTIC
Giving different properties Varying the quantity of vinegar accordingly can give different properties to the plastic • if less amount of vinegar is used, then the plastic obtained would be hard and stiff. • if more amount of vinegar is used, then the plastic obtained would be tensile and flexible.
applications • Biodegradable bioplastics are widely used for disposable items, such as packaging and catering items. • Biodegradable plastics are also used for organic waste bags, where they can be composted together with the food or green waste.
Benefits Bioplastics can ensure a greener and sustainable future as it - • Takes Less Time to Break Down Bioplastic, easily degrades when discarded, thus reducing tons of petroplastic that cannot degrade. • Renewable The biggest advantage of bioplastic is that these plastics are made from renewable sources. Unlike fossil fuels including oil, these resources will not be depleted within a century.
Benefits • Non Toxic Bioplastics do not have any chemicals or toxins. This plastic harmlessly breaks down and gets absorbed into the earth. • Reduces CO2 Emissions When bioplastics degrade, there are very few greenhouse gas and harmful carbon emissions. Bioplastics represent a 42% reduction in carbon footprint.
Benefits • Cost Effective and Energy Efficient Producing bioplastics uses 65% less energy than it takes to produce petroleum-based plastics, making bioplastics the energy-efficient choice. • Easier to Recycle Bioplastics are created from fully biodegradable materials. Thus, recycling them takes much less energy.
Drawbacks Despite that this plastic is eco - friendly, its has not become popular in its use mainly because - • Limited Shelf Life Bio plastics do not have a long life as they degrade very quickly. Thus, the conventional plastics are preferred more because of their excellent durability and long life. • Development of Plastic Consuming Bacteria It is also possible that bacteria will eventually evolve the ability to degrade synthetic plastics as well.
Drawbacks • Food Shortage Bio plastic production cannot be increased unless there is a pressure on the food system. Most of the corn that was used for human consumption is now being used for making bioplastic. Thus, there is a future possibility of food shortage. It has drawn attention to the importance of using non-edible plant resources to produce bio plastics. • Low Mechanical Strength The mechanical strength of starch based bio plastics is poor as compared to regular plastic.
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