polymerization synthetic polymers in...
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![Page 1: Polymerization Synthetic polymers in dentistryulbld.lf1.cuni.cz/file/1408/polymerace-2012-anglicky-pro-web.pdf · Polymerization Synthetic polymers in dentistry Pavel Bradna bradna@vus.cz](https://reader031.vdocument.in/reader031/viewer/2022030422/5aa9fb7e7f8b9a8b188d8d17/html5/thumbnails/1.jpg)
20121
PolymerizationSynthetic polymers
in dentistry
Pavel Bradna
Institute of clinical and experimentalstomatology
Poliklinika VFN, Karlovo namesti 32
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20122
Dental materials
• Metallic materials – denture frameworks, supraconstructions, implants, amalgams, orthodontic brackets, wires
• Inorganic materials - cements, ceramics, gypsum products, investment materials
• Organic (polymer-based) materials
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20123
Typical polymer-based materials usedin dentistry
• Dentures (bases, artificial teeth, relining materials)
• Filling materials (composites, cements, adhesives)
• Obturation materials (endodoncy)
• Equipment (spatulas, measures, etc)
• Impression materials
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20124
• Terms and definitions
• Structure of polymer chains
• Polymerization reactions
• Methyl methacrylate polymers
• Typical dimethacrylate resins
What is the lecture about?
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20125
Definition
Polymer – a chemical compound consisting
of giant molecules „MACROMOLECULES“
formed by union of many „POLY“ small
repeating units „MER“
mono“MER“ molecules POLY“MER“ chain, macromolecule
polymerization covalent bond
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20126
Note:
In stomatology:
Polymers = sometimes appointed as resins
but:
Some monomers – (dimethacrylates) are frequently appointed also as resins,e.g. resin composites
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20127
What controls polymer properties?
R = OH – poly(vinyl alcohol), hydrophilic water solublepolymer with gelling properties
R = H – polyethylene hydrophobic, semicrystalinepolymers
Examples:
n
R
-CH2-CH-
1. Chemical composition of polymersmonomer, its structure and composition
Vinyl monomers
CH2=CH
R
Stucture of vinyl polymers
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20128
R = COOH – acrylic acid
CH2=CH
R
n
R
-CH2-CH-
Water soluble
R = COOH – methacrylic acid
CH3
CH2=C
R
CH3
CH2=C
R
R = COOCH3 – methyl methacrylate
R = COOH – polyacrylic acid
Less water soluble
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20129
One monomer - HOMOPOLYMERs
Two or three monomers - COPOLYMERs
If one or more monomers are linked
together:
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201210
Linear polymers
2. Topology of polymer chains
Polymer (linear) backbone
Branches
Nonlinear (branched) polymers
-A-A-A-A-A-A-A-
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201211
A-A-A-A-
A-A-A-A-A-A-A-A- A-A-A-A-A-A-A-A-
A-A-A-A-A-A-
A-A-A-A- A-A-A-A-A-A-
• Cross-linked polymer (polymer networks)
Cross-links (permanent conections between chains
restricting motion of chains rigidity)
Temporary cross-linksentaglements
A-A-A-A-A-
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201212
A-B-A-B-B-B-A- statistical (random)
A-B-A-B-A-B-A- alternating
A-A-A-B-B-B-B-A-A- block
-A-A-A-A-A- graft/branched
-B-B-B-B-B
3. Monomer distribution in copolymers
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201213
2011
Cross-links strongly affect mechanicalproperties and thermal behaviour of polymers
Cross-linked polymers - they can not be reshaped on heating, do not melt, but decompose on heating -thermosetting polymers
(insoluble in organic liquids)
Linear or branched polymers - flow when heated, canbe easily reshaped upon heating - thermoplasticpolymers
(usually soluble in organic solvents)
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201214
Glass transitition or softening temperature Tg
Rig
idity
Temperature at which rigidity of a polymer decreases
Temperature
Glassy state
LiquidPlastic
Range of Tg
Linear
Low degree of cross-linking
High degree of cross-linking
Rigid
Rubbery state
0oC 30oCMelting range
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201215
Simple compounds –composed of identicalmolecules
4. Polymer molecular weight
Molecules of polymer –strongly differ (vary by many monomer units)
Polymers are characterized by molecular weight/polymerization
degree average
M - molecular weightaverage
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201216
•Step-growth polymerization (e.g. polycondenzation) of bifunctional monomersfrequently with release of low molecularcompounds (analogous reaction to low molecularweight compounds)
Synthetic polymers
Prepared via polymerization reactions:
•Chain-growth (addition) polymerizationusually free radical polymerization of monomers with double bonds
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201217
Types of chain-growthpolymerizations:
• Cationic polymerization – active centresbear positive charge.
• Anionic polymerization – active centresbear negative charge.
• Free radical polymerization – activecentre is a free radical (with an unpairedelectron).
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201218
Free radical polymerization
• Starts from an active center (e.g free radical) only these molecules are capable to react
• π-bond of monomer is converted to σ-bond in the polymer
• Monomer molecules add sequentially to the endof a growing chain
• Is very fast and exothermic
• Produces high molecular weight polymers
• Free-monomers are present
Characteristics
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201219
2011
Step-growth polymerization
• Proceeds by conventional functional group reactions(condensation, addition)
• Needs at least 2 functional groups per reactant
• Any monomer molecule has the „same“ probability to react
• After an elementary reaction – ability to grow remains
• Polymers are formed more slowly than by free radicalpolymerization
• Polymers are generally of lower molecular weight
• Dimers, trimers or oligomers are present (instead of freemonomers)
Characteristics
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201220
Stages of free radical polymerization
1. Initiation/induction – process starts
- Primary radical formation
In. + In. (activation)
In. + M
– Addition of primary radical on the double
bond of monomer
T, hν
In-M.
In - In
Initiator Free radicals
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201221
2. Propagation - the addition of monomer to the active center (free radical) to generate a new active center
M In-M-M.
+
In-M.
In-M-M.
yM
+
In-M-M-M.
In-M-M-M.+ In-M-M-M-.. My
.
M
3. Termination – the growing chain is stopped
- Radical coupling/recombination (most common)
In-Mx. + .My-In In-Mx-My-In
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201222
- Chain transfer – An atom is transferred to the growing chain, terminating the chain growth and starting a new chain.
1. Original chain terminates
-M-M-M. + XB -M-M-M-X + B.
Chain transfer agent new active radical
2. New chain growth starts
B. M+ BM.
new chainmonomer
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201223
A retarder is a substance that reacts with a
growing chain forming less reactive radical B.
and thus making polymerization rate „slow“
An inhibitor is a substance that reacts with an
active radical to form stable compounds
unable addition to monomer - completely stops
“inhibits” polymerization.
Special cases of chain transfer reactions:
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201224
Examples of step-growth polymerization
Polycondensation
Setting reaction of C-silicone impression materials
…
+ Si(OCH3) 4
Si
O
…..O
O
OH
Si
…..O
OHO
…..O
Si
O
Si
HO
O
HO
…..O
…
O
Si
O
Si
O
O
O
Si
O
SiO
…..O
…..O
O…
Si
O
O
O
……..O
…..O
… …… …
-4CH3OH
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201225
Methylhydro-dimethylsiloxane – a cross-linking agent
Addition of -H on vinyl double bond
Setting reaction of A-silicone impression materials
Polyaddition
Vinyl terminated siloxane oligomer
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201226
Methyl methacrylate (MMA) polymers
Why? Because these materials can be easily adopted to individual purposes (fillings, prostheses), polymerizationis fast and they are well accepted by the human body
Most frequently used group of polymers in prosthetic dentistry
CH3
CO
CH2
C
=
O
=
R
R = H – methacrylic acid
- methyl methacrylate (MMA)CH3
CH3-CH2-OH - hydroxy ethyl methacrylate(HEMA)
Based on MMA monomer
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201227
• Colorless liquid• Immisible with water but with organic
solvents• Melting point -48oC• Boiling point 100.3oC• Density 0.945 g/mL• Heat of polymerization 54.3 kJ/mol
(!! exothermic reaction !!)• Irritant• !! Flamable !!
Properties of MMA
=C
O
CH3
CH3
C=O
CH2
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201228
Properties of poly(methyl methacrylate) - PMMA
• Transparency and high clarity
• Low absorption of visible and UV light (to 250 nm)
• Compression strength 90 – 100 MPa
• Very rigid - elastic modulus above 2.4 GPa
• Water sorption up to app. 1.0 wt %
• Temperature resistance Tg = 120 – 125oC
• Soluble in organic solvents (MMA, aceton, toluene etc)
Density 1.19 g/cm3 (causes polymerization contraction/shrinkage app. 22 vol %)
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2012
How to overcome polymerizationshrinkage ????
Application of PMMA in dentistry
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201230
• First applications for dentures via compressionmoulding of molten PMMA powder (too expensiveand complicated)
• 1936 – Kulzer: powder/liquid systemPowder – PMMA prepolymer with residuals of DBP
Liquid – MMA monomer and additives
- When mixed together a workable - plasticmass (dough) is formed and polymerized in individualy fabricated mould
- Decreased polymerisation shrinkage (app. 6 vol %) at powder/liquid ratio 3-2,6/1
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201231
PMMA prepolymer beads
Prepared by suspension polymerization
Average particle size 0.005-0.100 mmAcrylics and Other Synthetic Resins Used in Dentistry
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201232
• Initiation– Thermal decomposition of dibenzoyl peroxide
(DBP)
O Oheat
2
=C
O
CH3
CH3
C=O
CH2-C
O
CH3
CH3
C=O
CH2.
.O
O
+.O
O
O
O
Polymerization scheme of MMA monomers
(2 phenyl. + CO2)
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201233
2011
C = concentration of peroxidek = kinetic constantt = time
Thermal decomposition of peroxides
Effect of temperature
The temperature dependence of kinetic constant is given by an Arhenius law:
with : k(T) = kinetic constant at temperature T (K)Ea = Activation energyR = Gas constantT = Temperature in K
The higher temperature – the higher concentration of radicals and higher polymerizatin rate
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201234
+-C
O
CH3
CH3
C=O
CH2 . =C
O
CH3
CH3
C=O
CH2n( ) -C
O
CH3
CH3
C=O
CH2 - C
O
CH3
CH3
C=O
CH2( )n.
•Propagation
OO- O
O
C=O
-C
O
CH3
CH3
.
•Chain termination
+
CH3
CH3
C=O
C
O
.
CH3
CH3
C=O
C
O
C=O
-C
O
H2C
CH3
CH3
C CH2-R2R1-H2 R1- CH2-R2
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201235
2011
HO OCH3 methoxy phenol (hydroquinonemono methyl ether) MEHQ
-MX – CH2-CH2. + HO- -OH -MX – CH2-CH3 +HO- -O.
hydroquinone (HQ)Stable hydroquinone
radicals will not propagate - stop
polymerization reaction
•Chain transfer to Phenolic inhibitors
HO
C(CH3)3
C(CH3)3
CH32,6-di-tert-butyl-4-methylphenol
(butylated hydroxytoluene - BHT)
Sterically hindered phenols – less efficient but reducedcolor change after polymerization - Synergetic mixtures
HQ + MEHQ
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201236
2. Oxygen inhibition
Stable hydroperoxid
MxI + O2 MxIOOH.
Oxygen-inhibited layer on thecomposite/adhesive surfaces
4-Allyl-2-metoxyfenol
Note 1. Eugenol = phenol(inhibits polymerisation)
Zinc oxide-eugenol cements-may negatively affector stop setting of composite materials
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201237
1. To extend monomer shelf-life by
restricting spontaneous polymerization
2. To decrease sensitivity of monomers to ambientlight
3. To prolonge the working time
Why polymer inhibitors are added?
Usually 0.01 – 0.005 wt %
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201238
PMMA is often modified for dentalapplication by:
•Cross-linking (effect of a molecular weight increase)
- improves hardness and stiffness
- improves wear and solvent resistance but increase
brittleness
- increases thermal resistance (polymers are easily
finished - grinded and polished without
melting)
- increases crazing resistance (small cracks originating atthe teeth-denture margin)
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• Copolymerization (with acrylic andmethacrylic monomers, PVC, PVAc, butadiene) disturbs regular intermolecularorder of a homopolymer
– decreases softening temperature
- improves fatique and impact resistance
- increase dissolution rate in MMA
• Blending of various MMA polymers
– increase rate of dissolution in MMA
- decreases softening temperature
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Methacrylate Polymer Tg oC
methyl 125
ethyl 65
n-propyl 38
n-butyl 33
rigid
Soft, fasterdissolution
Glass transitition temperature (softening) of various methacrylic polymers
=C
O
CH3
CH3 (ethyl,
propyl, butyl)
C=O
CH2
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• Plasticizing –
- to reduce stiffness, hardness and softening
temperature
- to prepare flexible polymers (acrylic relining
materials – combinations of MMA homo or
copolymers with plasticizers)
high-boiling compounds swell polymers (phatalates –dibutyl/dioctyl phtalates) – leachable potentially
harmfull
Plasticizers
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Classification of methacrylate polymersaccording to initiation reactions
(activation)
(prosthetic polymers)
- Light activated (LC/UV cured) resins
(prosthetic polymers, restorativecomposites, resin cements, and adhesives)
– Heat activated (heat cured/heat curing)resins
- Chemically activated (self cured/curing, cold curing, autopolymerizing, fast curing) resins
(restorative composites, resin cements andadhesives)
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Heat activated resins(denture base resins, resins for artificial acrylic
teeth, crown and bridge polymers)
Composition: powder: PMMA prepolymer with dibenzoyl peroxide (up to0.5 - 0.6 wt %)
Volume mixing ratio (powder/liquid): 3-2.5/1.0
liquid: MMA, cross-linking agent (app. 1- 6 wt %),
inhibitors, additives (plasticizers), regulators
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Chemically activated resins
Composition:powder: PMMA prepolymer or copolymer (fine particlesize), dibenzoyl peroxide
1. Tercial aromatic amine
(denture reparations, relining materials, orthodontic appliences, pouring resins)
2. Barbituric acid derivatives combined with aliphatic amine (lower colorchange) and Cu cations
3. Sodium p-toluene-sulfinate (for systems containing methacrylic acid),Cu cations
Acclerators
liquid: MMA, crosslinking agents, inhibitors, acclerators(1-4 wt %), UV absorbers
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2011
H3C
Free radical
-N
CH3
CH3
OO
+ -N.
CH3
CH3
+ .+ O-
N,N-dimethyl-p-toluidine (DMPT); N,N-di(hydroxyethyl)-p-toluidine
Compared to heat activated resins:
•Lower molecular weight
•Higher amount of free monomer 3-5 wt %, heatactivated app. up to 1 %
•Less color stability due to oxidation of aromatic amine accelerators
Scheme of DBP decomposition accelerated by terc. amine
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Light activated resins
(light cured denture base materials, compositematerials, adhesives, light cured glass-
ionomer cements)
2. Filler particles
amine
CQ
Light468 nm
H
H
amine
..
Composition (usually one component):
1. Dimethacrylate resin, light initiating systemcamphorquinone (CQ) - amine, inhibitors
CQ
Free radicals are formed from amines
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2012
1. BIS-GMA 2,2-bis[4-(2-hydroxy-3-methacryloyloxypropoxy)phenyl]propane (Bowen monomer, 1955)
Typical dimethacrylate monomers (resins)
higher molecular weight – less polymerizationshrinkage, high boiling point, no odor
Main applications: composite resins, adhesives, cross-linkers
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Meth. Meth.
Capable of H-bridge formation
high viscosity
Increased molecular mass - less polymerizationshrinkage app. 5-6 vol %
Composition of this spacer controlsrefractive index of the monomer
which plays a key role in thecomposite´s optical properties
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3. Triethylene glycoldimethacrylate TEGDMA (low viscositydiluent)
4. 1,6 hexane dioldimethacrylate
2. Urethane dimethacrylate (UDMA) (2,2,4-trimetylhexametyle-bis-(2-carbamoyl-oxyetyl)dimethacrylate)
Also of high viscosity
n=1 ethylene glycoldimethacrylate (EGDMA)
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2-hydroxyethyl methacrylate
4-acryloxyethyl trimelitic acid anhydride
4-methacryloxyethyl trimelitic acidanhydride/acid
Examples of monomers used in dentaladhesives
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Dipentaerythritol penta acrylatemonophosphate
10-methacryoloyloxydecyldihydrogenphosphate
Polyacrylic acid with pendant methacrylate groups
Itaconic acid
Maleic acid
Polymers and monomers for GIC
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Other polymersAlternatives to acrylic denture base
polymers
~[CO(CH2)4CO-NH(CH2)6NH]n~HO2C-(CH2)4-CO2H + H2N-(CH2)6-NH2-
adipic acid hexamethylene diamine polyamideNylon 66
Polyacetal, POM
Thermoplastic semicrystaline polymers/injectionmolding at high temperatures
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Summary
3. Phases of free radical polymerization
1. Polymers, characterization, properties (molecular structure)
2. Chain-growth polymerization (free radical); step-growth (polycondenzation and polyaddition)
6. Characteristics of heat, chemical and light activation systems
4. Properties of MMA, polymerization of PMMA
5. Inhibitors
7. Dimethacrylate resins used in composite materials
8. Other monomers and polymers in dentistry
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Literature:
• Craig RG., Powers JM., Wataha JC: DentalMaterials, Properties and Manipulation, Mosby
• Powers JM., Sakagushi RL: Craig´s RestorativeDental Materials, Mosby
• Gladwin M., Bagby M.: Clinical Aspects of DentalMaterials, Theory, Practice and Cases, LippincottWilliams/Williams
• Anusavice KJ.: Phillips´ Science of DentalMaterials, Saunders
Actual edditions of these text books