polystyrene
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Oct 01, 2015
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About This Presentation
poly styrene is a synthetic aromatic polymer made from the monomer styrene. Polystyrene can be solid or foamed. General purpose polystyrene is clear, hard, and rather brittle. It is an inexpensive resin per unit weight. polystyrene is in a solid (glassy) state at room temperature but flows if heated...
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By, JEFF JOSE Roll No:10 1sem Msc.Biopolymer science CBPST,COCHIN polystyrene
INTRODUCTION
Polystyrene (PS) is a synthetic aromatic polymer made from the monomer styrene, a liquid petrochemical. In chemical terms, polystyrene is a long chain hydrocarbon wherein alternating carbon centers are attached to phenyl groups (the name given to the aromatic ring benzene). Polystyrene's chemical formula is C8H8 Polystyrene was discovered in 1839 by Eduard Simon, from Berlin General purpose polystyrene is clear, hard and brittle. It is a very inexpensive resin per unit weight As a thermoplastic polymer, polystyrene is in a solid (glassy) state at room temperature but flows if heated above about 100 °C, its glass transition temperature. It is very slow to biodegrade and therefore a focus of controversy, since it is often abundant as a form of litter in the outdoor environment, particularly along shores and waterways especially in its foam form.
PROPERTIES OF POLYSTYRENE PHYSICAL PROPERTIES ► The density of polystyrene can vary from 10kg/m3 to 50kg/m3. ► Unfilled polystyrene is amorphous, and has a glassy, sparkling appearance. It is also known as crystal polystyrene. ► An important property of extruded polystyrene is its buoyancy or ability to float in water. This makes it the perfect choice for making floating boards. If you've ever been to the swimming pool and noticed the colourful boards, you'll know what we're talking about! ► S pecific gravity 1.03 to 1.06 g/cm3 ► Apparent density .60 to .65 ► Water absorption 0.03-0.10 %
MECHANICAL PROPERTIES The mechanical properties of a polymer include its strength, elongation, modulus, impact strength, and toughness. Crystal forms of the polymer polystyrene have low impact strength. Polystyrene polymers get degraded on exposure to sunlight, due to photo oxidation, which affects its mechanical properties. The following table shows the value of the mechanical properties of general purpose polystyrene (GPPS).
OPTICAL PROPERTIES GPPS is transparent while high impact polystyrene (HIPS), which is a copolymer formed by adding rubber to polystyrene at the time of polymerization, is opaque. However, HIPS has gloss, which is measured by the percentage of light reflected by the surface of the polymer. Given below are the values of the optical properties of GPPS.
THERMAL PROPERTIES Thermal properties are the properties exhibited by the substance when it is subjected to heat. These include the heat distortion temperature, glass transition temperature, thermal conductivity, etc. Polystyrene is a rigid, transparent thermoplastic, which is present in solid or glassy state at normal temperature. But, when heated above its glass transition temperature, it turns into liquid form that flows and can be easily used for moulding and extrusion. It becomes solid again when it cools off. This property of polystyrene is used for casting it into moulds with fine detail. Given below are the values of the thermal properties for GPPS.
ELECTRICAL PROPERTIES Electrical properties are the properties of a substance that determine its response to an electric field. Given below are the values of these properties for GPPS. CHEMICAL PROPERTIES ► Polystyrene is chemically inert, and does not react with most substances. ► It dissolves in some organic solvents. It is soluble in solvents that contain acetone, such as most aerosol paint sprays and cyanoacrylate glues.
► The transformation of carbon-carbon double bonds into less reactive single bonds in polystyrene, is the main reason for its chemical stability. Most of the chemical properties of polystyrene are as a result of the unique properties of carbon. ► It is highly flammable and burns with an orange yellow flame, giving off carbon particles or soot, as a characteristic of all aromatic hydrocarbons. Polystyrene, on complete oxidation, produces only carbon dioxide and water vapour. ► High impact polystyrenes are susceptible to solvent crazing at the interface between the rubber particles and the polystyrene phase. The resistance of polystyrene to this crazing is referred to as environmental stress crack resistance (ESCR).
► For food-packaging applications, such as butter tubs and deli containers, polystyrenes with high ESCR properties are desirable. Increasing the percentage of gel, percentage grafting, and rubber particle size can increase stress crack resistance. Residual levels of low molecular weight materials are also important to polystyrene performance. Some of the chemical impurities in the polystyrene are styrene monomer and ethyl benzene solvent. Residual levels of styrene below 200 ppm and ethyl benzene levels below 30 ppm are obtainable for very specialized applications
PREPARATION OF THE MONOMER The bulk of commercial styrene is prepared by the Dow process or some similar system. The method involves the reaction of benzene and ethylene to ethylbenzene, its dehydrogenation to styrene and a final finishing stage. It is therefore useful to consider this process in each of the three stages. 1 ) Preperation of ethylbenzene Ethylbenzene is prepared by reaction of ethylene and benzene in the presence of a Friedel - Crafts catalyst such as aluminum chloride at about 95°C
2)Dehydrogenation Styrene is produced from the ethylbenzene by a process of dehydrogenation 3)Styrene purification The dehydrogenation reaction produces 'crude styrene' which consists of approximately 31.0% styrene, 61% ethylbenzene and about 2% of aromatic hydrocarbon such as benzene and toluene with some tarry matter.
POLYMERIZATION The polymer maybe prepared by mass , suspension, solution and emulsion methods. MASS POLYMERIZATION Mass polymerization has advantages of apparent simplicity and gives a polymer of high clarity and good electrical insulation characteristics Styrene is polymerized by heating in a pre polymerization kettle at 80* for two days until a 33-35%conversion to polymer is reached The monomer mixture is run into a tower about 25mtr high . The tower is fitted with heating and cooling jackets and internally with a number of heating and cooling coils. The top of the tower is maintained at a temperature of 110* C . The high bottom temperature not only ensure a high conversion but boils of the residue styrene from the polymer. The base of tower forms the hopper of the extruder fro which the melt emerges as filaments which are cooled, disintegrated and packed as shown
TOWER PROCESS
SOLUTION POLYMERIZATION Styrene and solvent are blended together and pumped through number of reactors. At temperature of 225* the solvent and polymer is fed into extruder unit, extruded as filaments, granulated and stored. R esidual monomer and some very low molecular weight polymers are removed. SOLUTION POLYMERIZATION In this polymerization monomer is suspended in droplets. The reaction is initiated such as benzyl peroxide Suspension agents such as PVA talc are added to prevent cohering Particle size depend on quality suspension agent and speed of agitation After polymerization unreacted monomer are distilled and polymer is washed and dried
STRUCTURE PROPERTY RELATION Ps is linear hydrocarbon being thermoplastic in nature Specific gravity of polystyrene is 1.054 Amorphous in nature as the specific position of benzene ring however sufficiently enough to inhibit crystallization Due to benzene ring causing stiffening effect Solubility parameter is 18.6Mpa hence soluble in benzene,styrene,toluene. The presence of benzene makes it more reactive than polyethylene Due to phenyl group poly styrene undergoes chlorination, nitration, hydrogenation and halogenations. Excellent electrical properties PROCESSING CONDESIRATIONS The negligible water absorption avoids the need of pre-drying Specific heat of PS is less, therefore higher plasticizing machines should be used Due to amorphus in nature, polymer gives low mould shrinkage
PROCESSING TECHINIQUES INJECTION MOULDING
The material is fed into a hopper located at the rear and top of the machine Each successive cycle makes the plunger move forward, forcing the material into the heating cylinder . The material progressively moves closer to the nozzle, which is removable for fast, easy cleaning and changeover.
The mold is kept at a constant temperature, usually just low enough to solidify and cool the material. At the right time in the cycle, the die opens and a part is removed either mechanically or by hand . EXTRUSION
High impact strength polystyrene is widely used to make sheets used in thermoforming. An extruder screw have L/D ratio 25:1 and 30:1 and compression ratio 2:1 to 3:1 are recommended to ensure a uniform melt temperature .recommended process temperature is about 150* - 220* COMPRESSION MOULDING
Compression molding is the term applied to the type of molding wherein the molding compound is placed in an open mold cavity, the mold is closed, then pressure and heat are applied until the material is softened and fills out the entire cavity. After the softening process, with the pressure applied, the mold is cooled and the material hardens into its exact shape. In a specified amount of time, the mold is opened to eject a finished part. Compression molding is not generally used with Polystyrene. However, under certain conditions and needs, and with the proper techniques, it can and is being done. THERMOFORMING
HIPS is one of the major thermoforming materials. Solid sheets of HIPS is extruded and shaped by a variety of forming methods In this process vacuum is drawn between sheet and mould or pressure is applied to the mould plug while air is drawn out from the space the sheet and mould. Typical forming temperature is around 130-180*C and pdt removal temperature about 85*C CASTING Casting comprises pouring a molten mass into an open form in which it cools into a single faced shape. With the rapid growth in electronic .EMI &RMI shielding has become important.PS is shielded by coating molded solid and structural foam parts with paints made conductive by metal such as copper, zinc, silver, or with graphite
SOME COMMON POLYSTYRENE TRADE NAMES ARCO Polymers, Inc., Dylene ® Philadelphia, PA Bacon Felt Company, Inc., Lustrex ® East Taunton, MA Dow Chemical Company, Styron® Midland, MI Georgia-Pacific Resins, Bakelite® Atlanta, GA
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