1. The International Association of Plastics Distributors The IAPD Plastics Primer, Module 1 Prepared by the IAPD Education Committee (Module 1) Presented courtesy of Modern Plastics, Inc. How Plastics are Made… Understanding the Physical Properties of Plastics

2. The International Association of Plastics Distributors Why use plastics Plastic are easily formed materials. The advantage to the manufacturer is that plastic products can be mass- produced and require less skilled staff. Plastics require little or no finishing, painting, polishing etc. Plastic is referred to as a self-finishing material. Particular finishes can be achieved at relatively low cost. Plastics can be easily printed, decorated or painted. Plastics are corrosion resistant, and generally waterproof although certain types of plastics such as UPVC can become brittle and it is possible for the sun’s rays to cause the colour of the plastic to fade. It becomes bleached. Plastics are lighter than metals, giving deeper sections for a given weight, and hence stronger sections.

3. The International Association of Plastics Distributors Origins of Plastics - synthetic plastics. The main source of synthetic plastics is crude oil. These gases are broken down into monomers. Monomers are chemical substances consisting of a single molecule. A process called Polymerisation occurs when thousands of monomers are linked together. The compounds formed as called polymers. Combining the element carbon with one or more other elements such as oxygen, hydrogen, chlorine, fluorine and nitrogen makes most polymers.

4. The International Association of Plastics Distributors Thermoplastics There are a wide range of thermoplastics, some that are rigid and some that are extremely flexible. The molecules of thermoplastics are in lines or long chains with very few entanglements. When heat is applied the molecules move apart, which increases the distance between them, causing them to become untangled. This allows them to become soft when heated so that they can be bent into all sorts of shapes. When they are left to cool the chains of molecules cool, take their former position and the plastic becomes stiff and hard again. The process of heating, shaping, reheating and reforming can be repeated many times. Long chain molecules

5. The International Association of Plastics Distributors General properties: low melting point, softer, flexible. Typical uses: bottles, food wrappers, toys, … Examples: Polyethylene: packaging, electrical insulation, milk and water bottles, packaging film Polypropylene: carpet fibers, automotive bumpers, microwave containers, prosthetics Polyvinyl chloride (PVC): electrical cables cover, credit cards, car instrument panels Polystyrene: disposable spoons, forks, Styrofoam™ Acrylics (PMMA: polymethyl methacrylate): paints, fake fur, plexiglass Polyamide (nylon): textiles and fabrics, gears, bushing and washers, bearings PET (polyethylene terephthalate): bottles for acidic foods like juices, food trays PTFE (polytetrafluoroethylene): non-stick coating, Gore-Tex™ (raincoats), dental floss Plastic types: Thermoplastics

6. The International Association of Plastics Distributors General properties: more durable, harder, tough, light. Typical uses: automobile parts, construction materials. Plastic types: Thermosets Examples: Unsaturated Polyesters: lacquers, varnishes, boat hulls, furniture Epoxies and Resins:glues, coating of electrical circuits, composites: fiberglass in helicopter blades, boats, …

7. The International Association of Plastics Distributors Plastic types: Elastomers General properties: these are thermosets, and have rubber-like properties. Typical uses: medical masks, gloves, rubber-substitutes Examples: Polyurethanes:mattress, cushion, insulation, toys Silicones:surgical gloves, oxygen masks in medical applications joint seals

8. The International Association of Plastics Distributors Clear Acrylic (Perspex) It was first used to make aircraft canopies. It is ten times more impact resistant than glass.

9. The International Association of Plastics Distributors Polystyrene Polystyrene is used to make plates, cutlery and model kits. It is stiff hard and comes in a wide range of colours.

10. The International Association of Plastics Distributors Nylon Nylon is hard, tough, self- lubricating, has a high melting point and has very good resistance to wear and tear. It has been used to make fibres, clothing, bearings and propellers.

11. The International Association of Plastics Distributors PVC The rigid type is used to make pipes, guttering and roofing. It is very lightweight and is resistant to acids, alkalis & the weather. The plasticised type is used for suitcases, hosepipes, electrical wiring and floor coverings.

12. The International Association of Plastics Distributors Polythene High-density polythene has been used to manufacture milk crates, bottles, buckets, bowl and gear wheels. It is stiff, hard, can be sterilised and is dense.

13. The International Association of Plastics Distributors The Performance of a Plastic Part is Affected By: Type of load Size and application of load Frequency of application of load Speed of load Temperature the part will see, and for how long Use and environment of load

14. The International Association of Plastics Distributors Mechanical Properties Tensile strength Elongation Compressive strength Creep Shear strength Flexural strength Torsional strength Modulus Impact strength Specific gravity Water absorbtion Coefficient of Friction (COF)

15. The International Association of Plastics Distributors Tensile Strength

16. The International Association of Plastics Distributors Elongation

17. The International Association of Plastics Distributors Compressive Strength Measured in Kg/m2 Higher Kg/m2 = harder to compress

18. The International Association of Plastics Distributors Creep Associated with compressive strength Creep at room temperature is called “cold flow”

19. The International Association of Plastics Distributors The IAPD Plastics Primer, Module 1 Shear Strength

20. The International Association of Plastics Distributors Flexural Strength

21. The International Association of Plastics Distributors The IAPD Plastics Primer, Module 1 Torsional Strength

22. The International Association of Plastics Distributors Modulus Also referred to as “stiffness” Used in conjunction with strengths (flexural modulus, tensile modulus, etc.) Higher modulus = stiffer material Measured in N/m2 (Kg/m2)

23. The International Association of Plastics Distributors Impact Strength Izod Impact

24. The International Association of Plastics Distributors The IAPD Plastics Primer, Module 1 Specific Gravity Related to the density of material Can be used to determine the weight of material Specific gravity of less than 1.0 will float in water

25. The International Association of Plastics Distributors Water Absorption Measured by the percentage of swell Think of a sponge as having high percentage absorption

26. The International Association of Plastics Distributors Chemical Resistance Typically expressed in terms of alkali or acid resistance Inertness; or the ability not to dissolve or react to chemicals

27. The International Association of Plastics Distributors Coefficient of Friction (COF) Resistance to sliding (slickness) Low COF = more slippery (think of “wet ice” as having lowest COF) Static COF refers to initial movement from rest Dynamic COF refers to being already in motion

28. The International Association of Plastics Distributors Thermal Properties Coefficient of thermal expansion Heat deflection temperature Continuous service temperature Melting point Thermal conductivity

29. The International Association of Plastics Distributors Coefficient of Thermal Expansion (CTE) Change in size as temperature changes Lower value = less change with temperature

30. The International Association of Plastics Distributors Continuous Service Temperature (CST) Highest temperature a material can withstand and still retain at least 50% of its properties Measured in degrees Fahrenheit, in air In high temperatures, both CST and HDT must be considered

31. The International Association of Plastics Distributors Melting Point Temperature at which a crystalline thermoplastic changes from solid to liquid

32. The International Association of Plastics Distributors Thermal Conductivity How much heat a material will conduct Most plastics are good “insulators” (do not conduct heat well) Higher value = more heat conducted Thermal conductivity of plastics is 300 to 2,500 times less than most metals

33. The International Association of Plastics Distributors Mouldability The ability of a plastic to flow into a complex mould Determined by its liquid viscocity, & Rate of cooling

34. The International Association of Plastics Distributors Electrical Properties Volume resistivity Surface resistivity Dielectric constant Dielectric strength Dissipation factor Arc resistance Flammability

35. The International Association of Plastics Distributors Most favorable ratings are given to materials that extinguish themselves rapidly, and do not drip flaming particles Scale from highest burn rate => most flame retardant is HB, V-2, V-1, V-0, 5V Flammability

36. The International Association of Plastics Distributors Ranging from PP & PE @ ~ £0.90/kg & Nylon @ £3 - £4/kg to PTFE @ £10/kg … Cost…

37. The International Association of Plastics Distributors Processing Injection molding Extrusion –Ram extrusion –Screw extrusion –Coextrusion Casting Compression molding Rotational molding Transfer molding Calendering Hand (or spray) lay up Laminating Filament winding Polymer orientation

38. The International Association of Plastics Distributors The IAPD Plastics Primer, Module 1 Injection Moulding

39. The International Association of Plastics Distributors The IAPD Plastics Primer, Module 1 Blow moulding

40. The International Association of Plastics Distributors Extrusion Ram Screw Coextrusion

41. The International Association of Plastics Distributors Casting Base MaterialReactive Additive Oven Mold Casting

42. The International Association of Plastics Distributors Compression Moulding Sheet and block moulding Parts moulding Mold Lid Mold Resin

43. The International Association of Plastics Distributors Rotational Moulding Low cost Low pressure Used in many markets Easily adapted for short production runs

44. The International Association of Plastics Distributors Transfer Moulding Widely used in the semiconductor industry… Ideal for thermosets but slow…

45. The International Association of Plastics Distributors Calendering for films & sheets…

46. The International Association of Plastics Distributors Hand (or Spray) Lay Up Used to make large parts Used to produce fiberglass boats and camper shells

47. The International Association of Plastics Distributors Laminating Heat and pressure applied to the top and bottom of the material Resin Binder Reinforcing Substrate

48. The International Association of Plastics Distributors Filament Winding Used to make containers and tubes Items used for transportation of liquids or gasses

49. The International Association of Plastics Distributors Polymer Orientation Used to manufacture polymer fibers, strapping, webbing, film, sheet and profiles

50. The International Association of Plastics Distributors Plastics Fabrication CNC machining centers CNC lathes Cutting and drilling Profiling Routing and milling Thermoforming Forging Milling Welding Bending Bonding

51. The International Association of Plastics Distributors Thermoforming Single station thermoforming Rotary station thermoformers Pressure forming Twin sheet thermoforming

52. The International Association of Plastics Distributors Welding Extrusion welding Hot gas welding Butt welding Spin welding Solvent welding

53. The International Association of Plastics Distributors Bonding The union of materials by adhesives; to unite materials by means of an adhesive