L8-polymers.pdf

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CHAPTER 4
Polymers
Definitions:
Polymer is a macromolecule that is made up of many units (poly = many;
mer = unit).
Monomer: is the smallest repeated unit in the polymer chain (mono =
single).
Polymerization is the process of forming a polymer from monomers
Homopolymer is formed from one type of monomer
Copolymer is formed when two or more different types of monomers are
joined.
Classification of polymers:
1. Classification according to the origin

Natural Polymer Synthetic Polymer
1- Proteins They are produced industrially or in
2- Polysaccahrides e.g. agar the laboratory by chemical
alginate reactions
eg: acrylic resin,
2. Classification according to spatial configuration
[arranged in space]:

Linear Branched Cross –linked
polymers

1ry bond
Covalent
bond

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 3. Classification according to their thermal behaviour:

Thermoplastic resin Thermoset resin
- They are softened by heat and - They set by a chemical
harden by cooling reaction with evolution of heat
Soft Hard [irreversible reaction]
[physical change, reversible
reaction]

Types of Polymerization Reactions:
Polymerization: The chemical reaction by which polymers are prepared
from monomers.
Polymerization
Monomer by Polymer
reaction

Types:
1) Condensation polymerization
The reaction between two molecules to form a larger molecule with the
elimination of a smaller molecule such as water as a by-product.
condenseti on
Monomer  Polymer  by - product
polymeriza tion
2) Addition polymerization (Chain Reaction):
The reaction between two molecules to give a larger molecule without
the elimination of a smaller molecule (no by-product). There is no change
in the composition; the structure of the monomer is only repeated many
times.
Addition
Monomer  Polymer
polymeriza tion

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  Stages of addition polymerization:
The addition polymerization reaction passes through 3 stages:
1) Activation and initiation:
- The addition polymerization requires the presence of free radical.
- A free radical is a compound having chemical group of an unpaired
electron. This unpaired electron makes the radical very reactive.
- The initiator is the substance used to produce free radicals.
 Before initiation occurs, the initiator has to be activated.
Activation of the initiator is done by heat or chemical compound or
light.

2) Propagation:
R + M "Stable monomer"  RM "active monomer"
The chain reactions continue with the evolution of heat, until all
the monomer is changed to polymer.
This second stage "propagation" continues as the chain grows in length

RM + M  RMM + M  RMMM
and so on until RMn Where n is any integral number.

3) Termination:
The chain reactions can be terminated either by:
a. Direct coupling:
This occurs when two active chains react to form single long
stable chain.

b. Hydrogen atom transfer: from one growing chain to
another activated chains to form two stable chains.
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 +

 Factors associated with polymerization:
a. Evolution of heat as the reaction is strongly exothermic.
b. Reduction in volume (polymerization shrinkage).
c. Presence of residual monomer because the polymerization
reaction is practically never complete.

Inhibition and Retardation of polymerization:
Any impurity in the monomer which can react with free radicals
will inhibit or retard the polymerization reaction. It can react either with
the activated initiator or any activated nucleus, or with an activated
growing chain to prevent further growth.
For example, the addition of a small amount of hydroquinone to
the monomer will inhibit polymerization if no chemical initiator is
present, and it will retard the polymerization in the presence of an
initiator.
 N.B. Eugenol, or large amounts of oxygen will inhibit
polymerization.

General properties of polymers
 Generally the polymers are molecular solids where:
a- Strong primary covalent bonds exist between the mers along the
whole length of the polymer chain.
b- Weak secondary Van der Waal forces exist between the chains of
the polymer (intermolecular).

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 N.B. These secondary Van der Waal forces (weak, polar bond) are
responsible for;
- Reduced strength, hardness and rigidity.
- Water sorption.
 Polymers are characterized by being amorphous and having glass
transition temperature [Tg]: it is the temperature at which the
polymer start to be soft i.e. above which the polymer is soft and
rubber like material, and below which the polymer will be very
rigid.
Factors affecting the properties of polymers:
1- Molecular weight (MW) and Degree of polymerization
(D.P.):
a. Molecular weight:
- The molecular weight of a polymer molecule =
weight of the various mers x the number of the mers
- The higher the molecular weight of the polymer, the higher the
degree of polymerization.
b. Degree of polymerization:
- The degree of polymerization (D.P.) is defined as the total number
of mers in a polymer chain.
M.W. of a polymer
D.P. =
M.W. of a mer
- Effect on the properties;
The longer the polymer chain, the greater the number of entanglement
(temporary connection) that can be formed among the polymer chain.
 Strength, rigidity, and glass transition temperature increase with

increasing chain length.

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 2. Cross-linking:
- A chemical compound with two double bonds per molecule can act
as a cross-linking agent, since each C = C can react with a different
chain.

Effect on the properties;
- A small degree of cross linking limits the amount of movement of
the polymer chains relative to each other when the material is
stressed.
- This increase the strength, hardness, rigidity, and glass
transition temperature.
- It also decreases the water sorption and crazing (separation
between the polymer chains leading to minute cracks in the
surface).
N.B. Extensive cross-linking may lead to brittleness of the polymer.
3. Copolymerization
- Copolymers are polymer chains containing two or more different
types of monomers.
- Types;
Co-polymers are of three different types: random, block and graft.

Random co-polymer Block co-polymer Graft co-polymer

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 - Effect on the properties;
Copolymerization enables chemists to "tailor-make" molecules to
modify the properties of the polymer.
4. Plasticizers:
- They are compounds able to penetrate between randomly oriented
polymer chains which decrease the secondary Van der Waal forces
(intermolecular forces).
- Plasticizers may be:
1- External plasticizers:
It is by the addition of the plasticizer which penetrates between the
polymer chains thus the polymer chains become further apart and the
forces between them become less.
2- Internal plasticizers:
It is accomplished by copolymerization with a suitable co-monomer
in this case the plasticizer is a part of the polymer chain
Effect on the properties;
They reduce strength, hardness, rigidity, and glass transition
temperature of the polymer (the opposite action of cross-linking
agent). Plasticizers used to produce soft lining polymers.
5. Addition of inorganic fillers:
Addition of inorganic filler to the polymer.
Effect on the properties
It increases strength, hardness, and rigidity of a polymer.
Uses of polymers in dentistry:
1. Denture base materials.
2. Artificial teeth.
3. Tooth restorative materials.
4. Cements and Impression materials.
5. Crown and bridge facings.
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