Composite filling materials
Chemically bonded mixture of organic
matrix and inorganic filler
Composition
 Organic matrix – resin
Bowen monomer Bis GMA
(product of the reaction of Bisfenol A and
Glycidyldimethacrylate)
UDMA (Urethandimetacrylate)
Oligomer – more flowable (thinning):
TEGMA (tetraethylendimetacrylate)
Composition
 Filler
Milled quartz
Aluminium silicate glass
Silica
Prepolymer
Nanoparticles
Prepolymer
Agglomerates of the filler
3
Composition
 Coupling agent
Silan
Binding between organic and inorganic part
It is responsible for the homogenous distribution
of filler in the composite
Composition
Iniciators and accelerators
Other components
 Pigments
 UV absorbers
5
Classification acc.to size of
filler particles
Macrofiller composites (size micrometers)
Microfiller composites (size 0,02 -0,04
micrometers)
Homogenous
Non homogenous
Hybride composites (combination of varioue
fillers)
Modern hybrid composites
Microhybrid composites
Nanohybrid composites
Various sizes and material of the filler excellent
polishability, good mechanical
properties (high abrasion resistance)
Macrofiller Microfiller
(pyrogenic SiO2)
homogenious
Microfiller
Composite
Macrofiller
Composite
Microfiller-
complexes
inhomogenious
Microfiller-
Composite
Hybrid
Composite
Classification acc. type of filler
Filler particles
Filler size
(medium particle size)
Composite category
< 10 µm hybrid composite
< 5 µm fine particle hybrid
< 3 µm ultrafine particle hybrid
< 1 µm submicron hybrid , nano composites
More filler

Less amount of
resin

Lower
polymerization
shrinkage
Filler - example
matrix
Skleněné
plnivo
0.4 ~ 1 µm
Polymerization reaction
Accelerator
Iniciator
Double bonds – split
Polymer network
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Curing
 Light curing composite materials
- (Light activated).
Light activation is accomplished with the blue
light (470 nm)
Initiator is camphorquinon, phenylpropandion,lucirin
 Selfcuring composite materials
Iniciator is organic peroxide, accelerator tertiary
amine
Classification acc to mode of
curing
 Light curing
 Self curing (chemically curing)
 Dual curing (cementzs)
 Heat curing (for dental lab)
Polymerization units
 Quartz halogen units
 LED units
Blue light, 400 – 500 nm.
Camphorchinon 470 nm (maximum
absorption)
Light
Pre –gel phase
Gel-point
Post –gel phasePolymerization shrinkage
Indications – fillings
Frontal area:
Class III., IV, V.
Posterior area
Small – moderate cavities I. and II. class
Contraindications
 Bad level of oral hygiene
 Dry operating field is impossible
 Large cavities I. and II. class
Principle of retention - micromechanical
Buoconore
35% - 37% phosphoric acid
silica particles
blue dye
Acid etching of enamel
Irregular surface – retentive pattern
Speces between enamel rods or in enamel rods are created
The material flows into these spaces
Retention in enamel
Aprismatic enamel
 On the surface of enamel there is aprismatic
enamel. It is difficult to be etched in order
to achieve the retentive pattern. It must be
removed with diamond (red coded, fine)
Retention in dentin
o More water and organic components
o Tubular liquor
o Smear layer (layer after preparation
composed of collagen fibers, crystals of
hydroxyapatite that have been destroyed
during preparation and microbs)
Dentin x enamel
Smear layer
With acid etching
smear layer is
removed,
dentin tubuls are opened and
the surface of collagen
network decalcified
The material can flow into dentin tubules
and penetrates into spaces in
collagen network.
This is also
micromechanical retention.
Bond itself is not able
to penetrate into dentin tubules
Primer is necessary.
Adhesive system
 We need adhesive systém for penetration
into microscopic spaces after acid etching.
It consist of primer and bond
Primer
Open the collagen network in dentin and keep
it open: Withiout it the bond would not be
able to penetrate inside.
Bond
 Flows into spaces in enamel after etching,
into dentin tubules and to spaces in
collagen network. Dentin must be
pretreated with primer.
 Bond is an unfilled resin of the same
composition as composite material
Making filling
 Preparation
 Enamel is beveled in most cases – retentive border
 Acid etching
 Washing
 Bonding
 Placement of filling material – in portions
 Curing with light
 Finishing and polishing (extra and ultrafine
dimonds and rubber instruments)
Glassionomers
Composition
Powder: Aluminiumsilicate glass(SiO2, Al2O5, CaO,
N2O,P2O5, F)
Liquid: Polyacid
(polyacrylic, polymaleic)
Tartaric acid,
Water
Glassionomers
 Principle of setting – acid base reaction
Glassionomers
 Chemical bonding to hard dental tissues
 Thermal expansion similar to dentin
 Realease fluoride ions
Mechanical not strong enough
Aesthetics acceptable
Glassionomers acc to curing
 Acid – base reaction
 Dual cured glassionomers (resin modified)
Acid base reaction + polymerization
dentin
Glassionomers - indications
 Fillings
Class V., III.,
I., II. in primary dentition
Sealants
Protection of tooth surface
Glassionomers -
contraindications
 Fillings
Class IV., I,. II. (except of primary teeth)
Mixing
Hand
Power driven - capsulated
Making filling
 Preparation
 Smoth bordes
 Limited on caries lesion only
 Conditioning
 Washing
 Filling in one block
 Varnish after setting
 Polishing in next appointment