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propertis and applications of thermoplastics

Engineering
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PROPERTIES AND APPLICATIONS OF THERMOPLASTICS
Polyethylene (PE) • Polyethylene was introduced on a commercial basis in the 1970s. • Polyethylene is made from petroleum or natural gas Raw products. • It’s produced two process. – High density and – low density Polyethylene. • The most recent processes produces’ Polyethylene grade called linear low-density Polyethylene (LLDPE). • Application may be varied depends on WEIGHT , MANUFACTURE and DENSITY
Properties of PE • They have excellent resistance to most solvent and chemicals. • It has a good flexibility property. • They are non-toxic.
Application of PE • Polyethylene used in packaging film, coating and laminations. • It used to produced gaskets and seals. • It is used for Cable coating and insulation tapes. • They are used for transporting water and various other chemicals. • Polyethylene containers are used as packaging material for pharmaceuticals, corrosive chemicals, and cosmetics.
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Polypropylene (PP) • Polypropylene is formed the monomer propane • i.e., Propylene. • Polypropylene has becomes a major plastics, especially for injection molding. • It is similar to high density polyethylene (HDPE). It is lightest of the plastics and strength to weight ratio is high.
Properties of PP • They are high melting point. • They are lighter weight. • It has excellent fatigue resistance. • They are stiffer, hardener and stronger. • It has good chemical and thermal resistance. • Low density. • Good surface hardness and good dimensional stability. • Good resistance against moisture and chemicals.
Application of PP • Automotive and house ware. • Fiber products for carpeting. • It is also used for hinges components. • Laboratory ware and bottles of various types. • Shoes, textile cones and bobbins, toys.
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Polystyrene (PS) • This plastics account for about 20% of all the thermoplastics in commercials use. • Polystyrene is made from ethyl benzene. • A large benzene ring replaces a hydrogen atom on an ethylene molecule.
Properties of PS • PS possesses good dimensional stability • low cost. • Dielectric resistance is satisfactory. • Surface hardness of PolyPropylene is better than PolyStyrene. • Mechanical properties within the operating temperature limit. • It is soluble in many hydrocarbons. • It is easy thermoform ability.
Application of PS • It is used for household items such as imitation glass and cut glass varieties. • PS is also used in refrigeration components and many applications. • PS are used in the insulation of cold storage warehouse, building foundations. • Packaging items for delicate instruments such as cameras, calculators. • Other application includes automobile interior parts dials and knobs.
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Polyvinyl Chloride (PVC) • The widely used acronym for polyvinyl chloride is PVC. • It is one of the most widely used plastics in terms of volume produced. • PVC is made by reacting acetylene gas ( C2H2 ) with hydrochloride (HCL) acid in the presence of a suitable catalyst.
Properties of PVC • PVC has a relative high density ( 52.5 – 63 [g/cm3] ) • Medium heat deflection temperature ( 52 -82 °C ) • Good electrical properties • High solvent resistance, flame and chemical resistance. • PVC is a high rigid and brittle material.
Application of PVC • Non plasticized PVC grade are widely used for manufacturing of pipes • PVC finds use in furniture and automobile, shaped cushion, interior wall coverings, rainwear, shoes, luggage and shower curtains. • PVC is used for auto top covering, electric wires insulation, floor mats and interior and exterior trim. • Other applications include garden hoses,refrigerator gaskets
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Polymethyl methacrylate (PMMA) • This complicated name applies to a polymer that everyone is familiar with. Polymethyl methacrylate is the polymer used to make the clear, sheet material in unbreakable windows. • It may be more readily recognized by the trade name Plexiglass.
Polytetrafluoroethylene (PTFE) • Is the most widely used in Fluro carbon polymer
Properties of Poly tetra fluoro ethylene • Acrylics are noted for excellent optical properties. • Its have good mechanical properties. • Good thermal resistance and very good dimensional stability. • It also has an excellent weather resistance. • Acrylic moldings high surface glass.
Application of PTFE • One of the most popular applications of acrylics is in making thermoformed sheets. • It is used in wind shield for automobile, boats, and snow mobiles, aircraft and instruments dials. • Due to glossiness and transparency acrylics find uses as decorative and novelty items.
Polyethylene Terephthalate (PET) • Thermoplastics polyesters have been used for about 35 years, predominantly in films for packaging and in fibers. Everyone is familiar with polyester clothing and polyester auto tire reinforcement. These are thermoplastics polyester, usually polyethylene terephthalate.
Properties (PET) • PET has good injection characteristics and mechanical properties similar to nylon. • It has a use temperature above that of most nylons, and it does not have the moisture absorption problems of nylon. • PET and POYL BUTYL TETRAPHATALATE are closely related polymers in use properties with only subtle difference. • PET is slightly stronger and lower in cost.
Application of (PET) • Structural application in appliances, automobiles, and consumer products. • About 45% of the production of PET goes into films for photography and packaging. • PET has been used for plastics liter-size beverage bottles
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Polycarbonates ( PC ) • Polycarbonates are really polyester, since both are ester of carbonic acid and an aromatic biphenol. • The polycarbonate is amorphous linear polyesters with excellent mold ability and impact strength. • Which is made from the condensation of bisphenol A and carbonic acid.
Properties of (PC) • PCs possess excellent dimensional stability over a wide range of temperature. • Good ductility properties • It has electrical and chemical resistance properties. • They have a good strength and rigidity and because of high modulus of elasticity, possess good creep resistance.
Application of (PC) PCs are used in the manufacture of helmets, safety shields, street lamp cover, factories and school windows, machine guard, gears and cams. • PCs find uses as housing for high voltage lamps, aircraft parts, instruments panel.
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Polyamides (PA) • It is other wise called as nylon. • An important polymer family that forms characteristics amid linkage ( CO-NH ) during polymerization is called the polyamides ( PA ).
Properties of (PA) • Nylon is strong, highly elastics, tough abrasion resistant, and self – lubricating. • It retain good mechanical properties • It is very strong and tough.
Application of (PA) • Nylon is commonly a good substitute for metals in bearings, gear, and similar parts. • The majority of applications of nylon (about) are in fiber for carpets.
Polyamides (PA)
Acrylonitrile Butadiene Styrene (ABS) • It’s a type of polystyrene (PS) • - This material is a terpolymer of acrylonitrile, butadiene and styrene. • Usual compositions are about half styrene with the balance divided between butadiene and acrylonitrile. • Acrylonitrile Butadiene Styrene (ABS) polymer was first discovered during World War II
FEATURES • Flame Retardant , • High Heat Resistance , • Good Impact Resistance , • High Impact Resistance , • High Flow , • General Purpose , • Good Flow , • Good Process ability, • High Gloss , • Good Dimensional Stability
USES • Automotive Applications , • Electrical/Electronic Applications , • General Purpose , • Housings , • Appliances , • Business Equipment , • Automotive Interior Parts , • Thin-walled Parts , • Appliance Components , • Computer Components ..
Application of ABS • helmets, • refrigerator doors, • computer housings, • suitcases, • steering wheels, • grills for hot air systems, • pump impellers, • telephone housings, • electrical conduct, tubes and pipes. • In view of its low temperature resistance, ABS is used for fishing tackle boxes, fishing reels, etc. • Various thermoformed components are used in boats and trailer components.
.ABS MATERIALS
Polyimides (PI) • Polyimides are a group of linear aromatic polymers • They are produced in condensation reaction
Polyimides characteristics • Good mechanical properties • Excellent thermal resistance up to 250 C • Good resistance to organic solvents expect, alikies and concentrated acids
Applications of polyimide • High temperature electrical cables. • printed circuit boards, • turbine blades and other components requiring fire resistance, strength at high temperatures and good electrical properties.
.PI
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POLYAMIDE_IMIDE(PAI) • It is similar to polyimide, Use of high temperature
Properties of polyamide imide • The distinguishing characteristic of this family of polymers is high strength and a high maximum operating temperature. • Polyamide imides have a high modulus of elasticity. . • They have excellent thermal resistant upto 250 ˚. Celcius. • Used in spark ignition engines.
Applications of polyamide imide • Most electrical application. • Valves made from PAI replace bronze castings in hot water plumbing systems. • Polyamide imides are premium engineering plastics. • They should be used where elevated temperature strength and injection mold ability are important selection factors.
Polyether ether ketone (PEEK) • It is a linear crystalline hetro chain polymer • for High temperature plastics
Characteristics of PEEK • Melting temp is high • Low flammability and low smoke emission • Good fatigue and chemical resistance
Application of PEEK • High temperature engineering components, high temperature electrical coatings and aerospace applications.
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Polytetra fluoroethylene or Teflon (PTFE) • Fluorocarbons are a family of polymers based on a fluorine atom substructure. The oldest fluorocarbon, Polytetrafluoroethylene may be more familiar under the trade name Teflon.
Properties of PTFE • PTFE has an outstanding resistance to chemicals and is insoluble in all organics except a few fluorinated solvents. • It has a high service temperature. • Its impact strength is high even at subzero temperatures. • Though its tensile strength, wear resistance and creep resistance. • It has non sticking property and is flexible. • It also has excellent electrical resistance.
Application of PTFE • PTFE is used in chemical resistant pipe and pump parts, tank lining, filter media, valve seats, high temperature cable insulation, non stick coating on frying pans and special surgical blades, bearings, etc. • high temperature electronic components, piston rings and bearings.
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3 propertis and applications of thermoplastics

  • 2. Polyethylene (PE) • Polyethylene was introduced on a commercial basis in the 1970s. • Polyethylene is made from petroleum or natural gas Raw products. • It’s produced two process. – High density and – low density Polyethylene. • The most recent processes produces’ Polyethylene grade called linear low-density Polyethylene (LLDPE). • Application may be varied depends on WEIGHT , MANUFACTURE and DENSITY
  • 3. Properties of PE • They have excellent resistance to most solvent and chemicals. • It has a good flexibility property. • They are non-toxic.
  • 4. Application of PE • Polyethylene used in packaging film, coating and laminations. • It used to produced gaskets and seals. • It is used for Cable coating and insulation tapes. • They are used for transporting water and various other chemicals. • Polyethylene containers are used as packaging material for pharmaceuticals, corrosive chemicals, and cosmetics.
  • 5.
  • 6. .
  • 7. Polypropylene (PP) • Polypropylene is formed the monomer propane • i.e., Propylene. • Polypropylene has becomes a major plastics, especially for injection molding. • It is similar to high density polyethylene (HDPE). It is lightest of the plastics and strength to weight ratio is high.
  • 8. Properties of PP • They are high melting point. • They are lighter weight. • It has excellent fatigue resistance. • They are stiffer, hardener and stronger. • It has good chemical and thermal resistance. • Low density. • Good surface hardness and good dimensional stability. • Good resistance against moisture and chemicals.
  • 9. Application of PP • Automotive and house ware. • Fiber products for carpeting. • It is also used for hinges components. • Laboratory ware and bottles of various types. • Shoes, textile cones and bobbins, toys.
  • 10. .
  • 11.
  • 12. Polystyrene (PS) • This plastics account for about 20% of all the thermoplastics in commercials use. • Polystyrene is made from ethyl benzene. • A large benzene ring replaces a hydrogen atom on an ethylene molecule.
  • 13. Properties of PS • PS possesses good dimensional stability • low cost. • Dielectric resistance is satisfactory. • Surface hardness of PolyPropylene is better than PolyStyrene. • Mechanical properties within the operating temperature limit. • It is soluble in many hydrocarbons. • It is easy thermoform ability.
  • 14. Application of PS • It is used for household items such as imitation glass and cut glass varieties. • PS is also used in refrigeration components and many applications. • PS are used in the insulation of cold storage warehouse, building foundations. • Packaging items for delicate instruments such as cameras, calculators. • Other application includes automobile interior parts dials and knobs.
  • 15. .
  • 16.
  • 17. Polyvinyl Chloride (PVC) • The widely used acronym for polyvinyl chloride is PVC. • It is one of the most widely used plastics in terms of volume produced. • PVC is made by reacting acetylene gas ( C2H2 ) with hydrochloride (HCL) acid in the presence of a suitable catalyst.
  • 18. Properties of PVC • PVC has a relative high density ( 52.5 – 63 [g/cm3] ) • Medium heat deflection temperature ( 52 -82 °C ) • Good electrical properties • High solvent resistance, flame and chemical resistance. • PVC is a high rigid and brittle material.
  • 19. Application of PVC • Non plasticized PVC grade are widely used for manufacturing of pipes • PVC finds use in furniture and automobile, shaped cushion, interior wall coverings, rainwear, shoes, luggage and shower curtains. • PVC is used for auto top covering, electric wires insulation, floor mats and interior and exterior trim. • Other applications include garden hoses,refrigerator gaskets
  • 20. .
  • 21.
  • 22. Polymethyl methacrylate (PMMA) • This complicated name applies to a polymer that everyone is familiar with. Polymethyl methacrylate is the polymer used to make the clear, sheet material in unbreakable windows. • It may be more readily recognized by the trade name Plexiglass.
  • 23. Polytetrafluoroethylene (PTFE) • Is the most widely used in Fluro carbon polymer
  • 24. Properties of Poly tetra fluoro ethylene • Acrylics are noted for excellent optical properties. • Its have good mechanical properties. • Good thermal resistance and very good dimensional stability. • It also has an excellent weather resistance. • Acrylic moldings high surface glass.
  • 25. Application of PTFE • One of the most popular applications of acrylics is in making thermoformed sheets. • It is used in wind shield for automobile, boats, and snow mobiles, aircraft and instruments dials. • Due to glossiness and transparency acrylics find uses as decorative and novelty items.
  • 26.
  • 27. Polyethylene Terephthalate (PET) • Thermoplastics polyesters have been used for about 35 years, predominantly in films for packaging and in fibers. Everyone is familiar with polyester clothing and polyester auto tire reinforcement. These are thermoplastics polyester, usually polyethylene terephthalate.
  • 28. Properties (PET) • PET has good injection characteristics and mechanical properties similar to nylon. • It has a use temperature above that of most nylons, and it does not have the moisture absorption problems of nylon. • PET and POYL BUTYL TETRAPHATALATE are closely related polymers in use properties with only subtle difference. • PET is slightly stronger and lower in cost.
  • 29. Application of (PET) • Structural application in appliances, automobiles, and consumer products. • About 45% of the production of PET goes into films for photography and packaging. • PET has been used for plastics liter-size beverage bottles
  • 30. .
  • 31. Polycarbonates ( PC ) • Polycarbonates are really polyester, since both are ester of carbonic acid and an aromatic biphenol. • The polycarbonate is amorphous linear polyesters with excellent mold ability and impact strength. • Which is made from the condensation of bisphenol A and carbonic acid.
  • 32. Properties of (PC) • PCs possess excellent dimensional stability over a wide range of temperature. • Good ductility properties • It has electrical and chemical resistance properties. • They have a good strength and rigidity and because of high modulus of elasticity, possess good creep resistance.
  • 33. Application of (PC) PCs are used in the manufacture of helmets, safety shields, street lamp cover, factories and school windows, machine guard, gears and cams. • PCs find uses as housing for high voltage lamps, aircraft parts, instruments panel.
  • 34.
  • 35. .
  • 36. Polyamides (PA) • It is other wise called as nylon. • An important polymer family that forms characteristics amid linkage ( CO-NH ) during polymerization is called the polyamides ( PA ).
  • 37. Properties of (PA) • Nylon is strong, highly elastics, tough abrasion resistant, and self – lubricating. • It retain good mechanical properties • It is very strong and tough.
  • 38. Application of (PA) • Nylon is commonly a good substitute for metals in bearings, gear, and similar parts. • The majority of applications of nylon (about) are in fiber for carpets.
  • 40. Acrylonitrile Butadiene Styrene (ABS) • It’s a type of polystyrene (PS) • - This material is a terpolymer of acrylonitrile, butadiene and styrene. • Usual compositions are about half styrene with the balance divided between butadiene and acrylonitrile. • Acrylonitrile Butadiene Styrene (ABS) polymer was first discovered during World War II
  • 41. FEATURES • Flame Retardant , • High Heat Resistance , • Good Impact Resistance , • High Impact Resistance , • High Flow , • General Purpose , • Good Flow , • Good Process ability, • High Gloss , • Good Dimensional Stability
  • 42. USES • Automotive Applications , • Electrical/Electronic Applications , • General Purpose , • Housings , • Appliances , • Business Equipment , • Automotive Interior Parts , • Thin-walled Parts , • Appliance Components , • Computer Components ..
  • 43. Application of ABS • helmets, • refrigerator doors, • computer housings, • suitcases, • steering wheels, • grills for hot air systems, • pump impellers, • telephone housings, • electrical conduct, tubes and pipes. • In view of its low temperature resistance, ABS is used for fishing tackle boxes, fishing reels, etc. • Various thermoformed components are used in boats and trailer components.
  • 45. Polyimides (PI) • Polyimides are a group of linear aromatic polymers • They are produced in condensation reaction
  • 46. Polyimides characteristics • Good mechanical properties • Excellent thermal resistance up to 250 C • Good resistance to organic solvents expect, alikies and concentrated acids
  • 47. Applications of polyimide • High temperature electrical cables. • printed circuit boards, • turbine blades and other components requiring fire resistance, strength at high temperatures and good electrical properties.
  • 48. .PI
  • 49. .
  • 50. POLYAMIDE_IMIDE(PAI) • It is similar to polyimide, Use of high temperature
  • 51. Properties of polyamide imide • The distinguishing characteristic of this family of polymers is high strength and a high maximum operating temperature. • Polyamide imides have a high modulus of elasticity. . • They have excellent thermal resistant upto 250 ˚. Celcius. • Used in spark ignition engines.
  • 52. Applications of polyamide imide • Most electrical application. • Valves made from PAI replace bronze castings in hot water plumbing systems. • Polyamide imides are premium engineering plastics. • They should be used where elevated temperature strength and injection mold ability are important selection factors.
  • 53.
  • 54. Polyether ether ketone (PEEK) • It is a linear crystalline hetro chain polymer • for High temperature plastics
  • 55. Characteristics of PEEK • Melting temp is high • Low flammability and low smoke emission • Good fatigue and chemical resistance
  • 56. Application of PEEK • High temperature engineering components, high temperature electrical coatings and aerospace applications.
  • 57. .
  • 58. Polytetra fluoroethylene or Teflon (PTFE) • Fluorocarbons are a family of polymers based on a fluorine atom substructure. The oldest fluorocarbon, Polytetrafluoroethylene may be more familiar under the trade name Teflon.
  • 59. Properties of PTFE • PTFE has an outstanding resistance to chemicals and is insoluble in all organics except a few fluorinated solvents. • It has a high service temperature. • Its impact strength is high even at subzero temperatures. • Though its tensile strength, wear resistance and creep resistance. • It has non sticking property and is flexible. • It also has excellent electrical resistance.
  • 60. Application of PTFE • PTFE is used in chemical resistant pipe and pump parts, tank lining, filter media, valve seats, high temperature cable insulation, non stick coating on frying pans and special surgical blades, bearings, etc. • high temperature electronic components, piston rings and bearings.
  • 61. .