Structure, General Properties, and Applications Polymers: Structure, General Properties, and Applications
Polymer Plastics meaning can be molded and shaped Most products have a component made of some type of polymer.
generally characterized by: Low density. Low strength and stiffness. Low electrical and thermal conductivity. Good resistance to chemicals. High coefficient of thermal expansion.
(cont’d) Many colors and transparencies Low in cost. Can be machined, cast, formed, and joined Minimal surface-operations required -advantage over metals
Structure of Plastics Plastics are essentially a series of linked or cross-linked molecules Poly-mer, meaning many-units (mers).
Monomer: basic building block of polymers
Polymerization: Chemical reaction where monomers are linked to form larger molecules.
Bonding Determines overall strength of a polymer
Classification of Polymers Thermoplastics Thermosets Elastomers
Thermoplastics Can be reshaped after heated to glass temperature, returning to original hardness and strength after cooled.
Repeated heating/cooling leads to degradation (thermal aging). Can undergo large uniform deformations in tension before fracture, which enables the forming of complex shapes.
Like metals, when deformed, molecules align in the direction of the elongation, becoming stronger along the stretched direction, yet weaker in the transverse direction (anisotropic behavior). Deformation leads to strength in the direction of elongation
Thermosets Curing reaction is irreversible, shape is permanently set, thus the term thermosetting plastic.
Behavior of Thermosets Generally, thermosetting plastics have better mechanical, thermal, and chemical properties, electrical resistance, and dimensional stability than thermoplastics.
If temperature is increased sufficiently, thermosetting polymers burn, degrade, and blacken.
Elastomers (Rubber) Amorphous polymers (low glass-transition temperature). Ability to undergo large elastic deformation without rupture, recovering original form and dimension after loads have been removed, even after large deformations.
Elastomers are Cross-linked at elevated temperatures (vulcanization), cannot be reshaped.
Types of Elastomers
Natural rubber Latex base, sap obtained from tropical tree bark, good resistance to abrasion and fatigue, low resistance to oil, heat, ozone, sunlight.
Synthetic rubber Further developed natural rubber improved resistance to heat, gasoline, and other chemicals.
Additives Used to impart specific properties to polymers
Fillers Reduce cost, improve properties fine sawdust, silica powder, clay, cellulose, glass, asbestos
Plasticizers impart flexibility and softness by lowering the glass transition temperature.
Antioxidants Used to prevent or slow degradation from ultraviolet radiation and oxygen.
Colorants
Flame Retardants Chlorine, bromine, phosphorus
Lubricants Reduce friction during processing Linseed oil, waxes, soaps
Traditional Thermoplastic Processing Techniques
Extrusion Screw extruders Feed section Melt section – friction and heating elements Metering or pumping section – pressure buildup at the die Water and air cooling often used after the extrusion
Extrusion Processes Plastic tubes and pipes Use of a spider die Coextrusion Simultaneous extrusion of 2 or more polymers Plastic coating electrical wire Electrical cables and paper clips Polymer sheets and films Flat extrusion die (coathanger die) Sheet = thicker than .5 mm
Extrusion Processes Cont. Thin film Film = thinner than .5 mm Blown film process Plastic films Such as teflon Produced by shaving the circumference of a solid plastic billet Much like veneers from logs Called “skiving” Pellets Used as the raw material for many thermoplastics processing techniques Small diameter is extruded and chopped into pellets
Injection Molding Use of hydraulic plunger or rotating / reciprocating screw (extruder)
250 Ton Machine
Molds complex, several cavities “multicomponent injection molding – various colors and shapes (rear light covers – autos) Insert molding – metal hardware – (auto elect components Overmolding – process of making hinges and ball & socket joints in one operation Use of different materials that won’t bond Use of cooling inserts between the material to avoid bonding called “ice cold molding”
Blow Molding Modified extrusion and injection molding Extrusion blow molding Tube (preform) is extruded into mold cavity clamped in mold cavity with a larger diameter blown outward with hot air blast to fill mold cavity Drums up to 5oo gal.
Extrusion Blow Molding
Injection Blow molding Parison is injection molded (may be stored for later use) Mold opens – parison loaded and mold closed Hot air blown into parison and expands to parison to mold walls Beverage bottles, shampoo, etc. Multilayer blow molding Coextruding tubes (parisons) for multilayer structures Packaging for food and beverages Odor, taste, aroma protection, scuff resistance, capabilty for printing
Injection Blow Molding
3 Station Injection Blow Molding
Rotational Molding Large hollow parts Premeasured powdered polymer placed inside warm mold Mold is heated and rotated in oven Catalyst is added for thermosets Inserts may be molded integrally Trash cans, large hollow toys, carrying cases, footballs
Thermoforming Forming thermoplastic extruded sheets or films over a mold Use of heat and pressure Sheet is clamped Heated to sag point Forced against mold by vacuum or air pressure Packaging trays for cookies & candy Advertising signs, refrigerator liners, shower stalls No parts with holes
Casting Thermoplastics and thermosets cast into rigid or flexible molds Typcical parts are gears, bearings, wheels, lenses, etc. Potting and encapsulation Casting the polymer around an electrical component to embed it in plastic (coils or transformers) Potting: housing becomes part of final product Encapsulation: component is coated with a layer of polymer, surrounding it completely Both of these processes - the plastic serves as a dielectric (nonconductor)
Foam Molding Raw material is expandable polystyrene beads Polystyrene beads obtained by polymerization of styrene monomers are placed in a mold Exposed to heat (steam) Beads expand as much as 50 times original size to fill mold cavity Thermoplastics & thermosets can be used but thermoplastics are in liquid form so the process is much like RIM Products: styrofoam cups, food containers, insulating blocks, packaging materials
Foam Molding Cont. Structural foam molding Thermoplastics are mixed with a blowing agent (inert - nitrogen) Injection molded into cold molds Rapid cooling against the cold mold produces a rigid skin and a cellular core Products: furniture components, computer and business machine housings, construction trim and moldings
Composite Materials Combination of two or more chemically distinct and insoluble phases whose properties and structural performance are superior to those of the constituents acting independently.
Examples addition of straw (reinforcement) to clay (matrix) for making mud huts and bricks for structural usage. Concrete reinforced with re-bar or wire mesh
Consist of a matrix and reinforcement combined
Categories Polymer matrix composites Metal matrix composites (MMC) Thermoplastics Thermosets Metal matrix composites (MMC) Ceramic matrix composites
Types of Polymer Matrix materials Polyester Epoxy Phenolics Carbon
Functions of the matrix material Support the fibers in place Protects the fibers Transfer stresses
Reinforcements Give composites their directional qualities Very anisotropic Fibers very strong and stiff in tension Molecules oriented in long direction
Types of Reinforcements Glass Carbon Aramid (Kevlar)
Reinforcement Forms Fibers (dia usually less than .0004” ) Particles Whiskers (tiny needlelike single crystals grown)
Also classify fibers as: Continuous Discontinuous
Fiber forms Chopped Yarns and Roving – twisted and untwisted strands of fibers Woven fabric Mats
Other Composites
Metal Matrix Composites high resistance to elevated temperatures. high ductility and toughness Aluminum, aluminum lithium, magnesium, titanium
Ceramic Matrix Composites resist high temperatures and corrosive environments.
Honeycomb Structures core of honeycomb, or other corrugated shape, bonded (by adhesives to thin outer skins) High strength to weight ratio Core carries compressive loads, faces carry the bending loads
Applications of composites Aircraft / Aerospace Sporting goods Construction Transportation Marine Biomedical – Artificial limbs
Composites Processing Techniques Thermosetting Polymers
Composites Raw Material Forms Prepregs Fibers pre-coated in resin and rolled into sheet or tape. Sheet Molding Compounds (SMC) Chopped fibers deposited on layer of resin, then pressed on rollers.
Reinforced Plastics (Cont.) Bulk molding compounds (BMC) Similar to SMC but in billets. Formed like dough Thick molding compounds (TMC) Combines characteristics of BMC (cheep) with SMC (strength) and injection molding. Electrical components.
TMC
Molding techniques
Contact Molding Parts with high surface area-to-thickness ratios (swimming pools, tubs, shower units), usually hand layup or spray- up
Vacuum-Bag Molding Vacuum used to form shape of plastic (prepregs) to mold
Automated Tape lamination Multiaxis CNC Machines
Compression molding Also called matched die molding open mold process material placed between molds & pressure applied
Resin Transfer Molding Resin mixed with a catalyst is forced through a piston pump into a mold cavity with fiber reinforcements.
Reaction injection molding (Thermosets) Two reactive resin components are mixed and then injected into a closed mold Typical parts Auto bumpers, fenders, steering wheels, instrument panels, water skis, etc. Parts up to approx 110 lbs
Filament Winding Resin and fibers combined and wrapped around mandrel. pipes, tanks.
Pultrusion Resin and fibers pulled through a thermosetting polymer bath and a heated die. Polyester and glass reinforcements are the most commonly used materials. Production of long shapes with various continuous profiles rods, tubing, ladders, golf clubs, handrails.
Pulforming After resin and fabric (fibers) are pulled through a polymer bath, product is clamped by two dies and then cured. Non constant cross sections.
Metal Matrix Composites Liquid Phase Processing Casting of liquid matrix and solid reinforcement. Solid phase processes Fibers and powder metals tungsten carbide in cobalt matrix for tools.
Ceramic Matrix Composites Slurry Infiltration Fiber preform is hot pressed and impregnated with a matrix