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Characteristics of Plastic Materials Chapter 10
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Plastics – synthetic materials capable of being formed and molded to produce finished products. Derived from many types of organic and inorganic materials Most often from petroleum base stock or natural gas Polystyrene – benzene and ethylene, both from petroleum
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New plastics are constantly being developed Many no longer depend on petroleum Gargill Dow, LLC invented the first viable plastic made from sugar found in corn and sugar beets Renewable resource Corn is milled and starch is separated Unrefined dextrose sugar is produced from starch Dextrose is converted into lactic acid Lactic acid is purified Used in thermoforming, sheet and film extrusion, blown film processing, fiber spinning, and injection molding Other plastics being developed using wheat, potatoes, green algae
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Unique Characteristics of Plastics Several characteristics that provide advantages over other materials: About 1/8 th the weight of steel (next slide) Highly resistant to corrosion (do not deteriorate when exposed to environment) Good thermals and electrical insulation (handles, electrical joints) Minimal friction (when created with smooth surfaces, may never need lubrication) Reduce energy consumption (use for insulation, saves millions of barrels of oil)
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Weight Reduction Examples 1977 – 2 liter plastic bottles weighed 68 grams Today they weigh 51 grams 25% reduction 200-300 lbs of plastics in modern cars If the 300 lbs of plastic were made of steel the car might weigh 2100 lbs more
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The Development of Plastics First synthetic plastic called Parkesine developed in 1862 English chemist Alexander Parkes Material could be heated and formed, then when cooled it retained it’s shape Wanted to use it to replace rubber at a lower cost Lost financial backing New York, 1866 Billiards company offered a $10,000 reward for a usable substitute for ivory to make billiards balls John Hyatt discovered the same combination as Parkes Patented celluloid in 1869 Was used for dental plates, vehicle windshields and motion picture film Unfortunately it was highly flammable
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First real industrial application called Bakelite, introduced in 1907 American chemist Dr. Leo Baekeland Thermoset phenolic resin Would not burn, boil, melt or dissolve in any known acid or solvent Could not be remelted Used through WWII Telephone housings Pan handles
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By 1940, plastic had replaced metals, wood, glass, leather, paper and rubber in many products Many new varieties of plastics introduced 1981, Malden Mills and Patagonia create a synthetic sheep skin called Polar Fleece
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Plastics made from petrochemical resources create disposal and recycling challenges Biodegradable polymers (from starches) are designed to be more environmentally friendly Uses for recycled plastics are growing rapidly Demand for products greater than the amount of recycled plastics
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Making Industrial Stock Resin - any of a class of solid or semi-solid organic products of natural or synthetic origin, generally of high molecular weight with no definite melting point Plastic – one of many natural or synthetic, high polymeric products (excluding rubber), that are capable of flowing under heat and pressure, into a desired shape Often confused Manufacturer starts with resin in liquid, pellet, granule, or powdered form, and uses it to form or create the plastic material that will be the final product
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Commodity Resins Standard grade resins Includes most thermoplastic and thermoset resins Used to make common day items Containers Toys Household items
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Engineering Resins High performance resins in various grades Advanced Intermediate Commodity Advanced grades are most resistant to chemical attack, extreme heat, and impact Scientific lab equipment Helmets (sports) Reheatable food containers
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Structure of Plastic Hundreds of resins and compounds Each manufacturer is able to customize their product for specific applications All plastics are polymers Polymer – long chain molecule made up of thousands of smaller molecules linked together called monomers Monomer – simple molecules Different combinations of monomers = different polymers
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Major Classes of Plastics Thermoplastics Long discrete chains of molecules that melt to a viscous liquid at a specific processing temperature (240°F - 700°F) Softening and hardening cycles are reversible Formed into desired shape, pellet, bar, tube, etc. Then reformed into products
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Thermosets Chemically reactive in their fluid state and harden through further reaction called curing Once cured, cannot be returned to a fluid state Kept partially cured before final forming High dimensional stability High temperature resistance Excellent resistance to solvents
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Plastic Memory The capability of a material to return to its original shape after it is bent or formed Heat is applied after a material has been deformed to activate it’s memory PVC has a very high plastic memory
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Creep The slow and continuous increase in length at the point of deformation, over a period of time, when a material is placed under a steady load and constant temperature Cold flow – when creep takes place at room temp
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How Creep Takes Place A plastic bar, 2 inch square by 6 foot long Ends are fastened to cement blocks One pound weight is placed on the center of the bar The plastic will naturally sag (called elastic deformation) If the weight is removed quickly the bar will return to its original shape If the weight is left on the bar for a period of time, the bar will continue to sag at a slow rate
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