Chapter 15: Polymers - Characteristics, Applications, and Processing - PowerPoint PPT Presentation

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Chapter 15: Polymers - Characteristics, Applications, and Processing

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Chapter 15: Polymers - Characteristics, Applications, and Processing ISSUES TO ADDRESS... What are the tensile properties of polymers and how – PowerPoint PPT presentation

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Title: Chapter 15: Polymers - Characteristics, Applications, and Processing


1
Chapter 15Polymers - Characteristics,
Applications, and Processing
ISSUES TO ADDRESS...
What are the tensile properties of polymers
and how are they affected by basic
microstructural features?
Hardening, anisotropy, and annealing in
polymers.
How does the elevated temperature mechanical
response of polymers compare to ceramics and
metals?
What are the primary polymer processing
methods?
2
Mechanical Properties
  • i.e. stress-strain behavior of polymers

brittle polymer
?FS of polymer ca. 10 that of metals
plastic
elastomer
elastic modulus less than metal
Strains deformations gt 1000 possible
(for metals, maximum strain ca. 10 or less)
3
Temperature and Strain Rate
Decreasing T... -- increases E --
increases TS -- decreases EL Increasing
strain rate... -- same effects
as decreasing T.
4
Tensile Response Brittle Plastic
5
Predeformation by Drawing
Drawing -- stretches the polymer prior to
use -- aligns chains in the stretching
direction Results of drawing -- increases
the elastic modulus (E) in the stretching
direction -- increases the tensile strength
(TS) in the stretching direction --
decreases ductility (EL) Annealing after
drawing... -- decreases alignment --
reverses effects of drawing. Compare to cold
working in metals! Is it like Strain Hardening ?
6
Tensile Response Elastomer
Compare to responses of other polymers --
brittle response (aligned, crosslinked
networked polymer) -- plastic response
(semi-crystalline polymers)
7
Polymer Fracture
spherulites plastically deform to fibrillar
structure microvoids and fibrillar bridges form
8
Melting vs. Glass Transition Temp.
  • What factors affect Tm and Tg?
  • Both Tm and Tg increase with increasing chain
    stiffness
  • Chain stiffness increased by
  • Bulky sidegroups
  • Polar groups or sidegroups
  • Double bonds or aromatic chain groups
  • Tg is about 0.50.8Tm in K

9
Dependence of polymer properties on Molecular
weight and Temperature
10
Strain-time response of materials
Completely elastic
Pure viscous
Viscoelastic
11
Time Dependent Deformation
Stress relaxation test
-- strain to eo and hold. -- observe decrease in
stress with time.
12
Addition (Chain) Polymerization
  • Initiation

13
Condensation (Step) Polymerization
14
Polymer Additives
  • Improve mechanical properties, processability,
    durability, etc.
  • Fillers
  • Added to improve tensile strength abrasion
    resistance, toughness, thermal and dimension
    stability decrease cost
  • ex carbon black, silica gel, wood flour, glass,
    limestone, etc.
  • Plasticizers
  • Improve flexibility, ductility and toughness
  • Added to reduce the glass transition temperature
    Tg
  • commonly added to PVC - otherwise reduction of
    hardness and stiffness

15
Polymer Additives
  • Stabilizers
  • Antioxidants
  • UV protectants
  • Lubricants
  • Added to allow easier processing
  • slides through dies easier ex Na
  • Colorants
  • Dyes or pigments
  • Flame Retardants
  • Cl/F B

16
Thermoplastics vs. Thermosets
Thermoplastics -- little crosslinking
-- ductile -- soften with heating --
polyethylene, polypropylene, polycarbonate,
polystyrene
Thermosets -- large crosslinking (10 to
50 of mers) -- hard and brittle -- do
NOT soften with heating -- vulcanized rubber,
epoxies,polyester resin, phenolic resin
17
Processing of Plastics
  • Thermoplastic
  • can be reversibly cooled reheated, i.e.
    recycled
  • heat till soft, shape as desired, then cool
  • ex polyethylene, polypropylene, polystyrene,
    etc.
  • Thermoset
  • when heated forms a network
  • degrades (not melts) when heated
  • mold the prepolymer then allow further reaction
  • ex urethane, epoxy

18
Processing Plastics - Molding
  • Compression and transfer molding
  • thermoplastic or thermoset

19
Processing Plastics - Molding
  • Injection molding
  • thermoplastic some thermosets

20
Processing Plastics Extrusion
21
Blown-Film Extrusion
22
Processing Plastics
  • Blow Molding
  • Casting

23
Polymer Types Elastomers
  • Elastomers rubber
  • Crosslinked materials
  • Natural rubber
  • Synthetic rubber and thermoplastic elastomers
  • SBR- styrene-butadiene rubber

styrene
butadiene
Silicone rubber
24
Polymer Types Fibers
  • Fibers - length/diameter gt100
  • Textiles are majority use
  • Must have high tensile strength
  • Usually highly crystalline highly polar
  • Formed by spinning
  • ex extrude polymer through a spinnerette
  • Pt plate with 1000s of holes for nylon
  • ex rayon dissolved in solvent then pumped
    through die head to make fibers
  • the fibers are drawn
  • leads to highly aligned chains- fibrillar
    structure

25
Polymer Types
  • Coatings thin film on surface i.e. paint,
    varnish
  • To protect item
  • Improve appearance
  • Electrical insulation
  • Adhesives produce bond between two
    adherands
  • Usually bonded by
  • Secondary bonds
  • Mechanical bonding
  • Films blown film extrusion
  • Foams gas bubbles in plastic

26
Advanced Polymers
  • Ultrahigh molecular weight polyethylene (UHMWPE)
  • Molecular weight ca. 4 x 106 g/mol
  • Excellent properties for variety of applications
  • bullet-proof vest, golf ball covers, hip joints,
    etc.
  • Liquid Crystal Polymers
  • LCD displays

UHMWPE
27
Summary
General drawbacks to polymers -- E, sy,
Kc, Tapplication are generally small. --
Deformation is often T and time dependent. --
Result polymers benefit from composite
reinforcement. Thermoplastics (PE, PS, PP,
PC) -- Smaller E, sy, Tapplication --
Larger Kc -- Easier to form and recycle
Elastomers (rubber) -- Large reversible
strains! Thermosets (epoxies, polyesters)
-- Larger E, sy, Tapplication -- Smaller Kc
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