Physical properties of dental materials PDF

Summary

This document presents the different physical properties of dental materials. It covers mass-related properties, thermal properties, less specific properties and optical properties. The document also discusses the clinical significance of these properties in dentistry.

Full Transcript

Physical
properties of
dental materials
 ‫كلية طب الفم واألسنان‬
‫رؤية الكلية‬
‫تتطلع الكلية أن تكون في مصاف المؤسسات التعليمية المعترف بها إقليمياً وعالمياً من خالل برامج تعليمية متطورة‬.‫وأبحاث تطبيقية مبتكرة وتنمية مجتمعية مستدامة‬

The Faculty aspires to be a recognized educational institution, regionally and internationally, by
providing advanced educational programs, innovative applied research, and sustainable community
development.

‫رسالة الكلية‬
‫ ذو كفاءة معرفية وتطبيقية من خالل برامج تعليمية‬،‫إعداد طبيب أسنان ملتزم بالقيم االنسانية واألخالق المهنية‬
‫ كما تلتزم الكلية بإعداد بحوث تطبيقية‬.‫متطورة تتوافق مع االحتياجات الفعلية لسوق العمل المحلي والعالمي‬.‫متوافقة مع االستراتيجيات القومية وكذلك تقديم خدمة مجتمعية مستدامة وفقاً لمعايير الجودة العالمية‬

The mission is to prepare knowledgeable and well-trained dentists committed to human values and
professional ethics, by developing advanced educational programs that correspond to the actual
needs of the local and global labor market. The Faculty is also committed to preparing applied
research in line with national strategies, as well as providing sustainable community service
following international quality standards.
Learning objectives
By the end of this
chapter, the student
should be able to
recognize the
physical properties of
dental materials.
These are properties
which are not related to
force application.
These are:
1- Mass-related properties:
Density specific gravity
2- Thermal properties:
- Thermal conductivity
- Coefficient of thermal expansion and contraction
- Heat of fusion & latent heat of fusion
- Melting and freezing temperature
- Specific heat
- Thermal deffusivity
3- Less specific properties:
- Water sorption.
- Fluidity, viscosity and plasticity.
-Shelf life
4- electrical properties
5 Optical properties
Mass- Related Properties:

Density

It is the mass per unit volume of the material.

Units are gm/cm3 or pound/in3
specific gravity:

It is the ratio of the density of a material to the
density of water at 4ºC.
Since the density of one cc of water at 4ºC = 1,
therefore the specific gravity is numerically
equal to density but without units.
 Clinical importance in Dentistry:

1- Retention of the upper denture.
2- Weight of complete or partial denture.
3- During casting
 Thermal Properties:

1- Thermal Conductivity:

It is the amount of heat in calories or joules passing
per second through a body 1cm thick, 1cm 2 cross
sectional area when the temperature difference is
1°C. (oC/cm)
Clinical importance in Dentistry:

1- Metallic filling materials.
2- Metallic denture base materials.
 2- Thermal Coefficient of expansion( α)

The change in length per unit length of the material for
a 1°C change in temperature is called the linear
coefficient of thermal expansion(α)

α= L final- L original
L original x (°C final- °C original)
Clinical importance Close matching of the coefficient of thermal
expansion (α) is important between:

in Dentistry: 1- The tooth and the restorative materials to
prevent marginal leakage.

Opening and closing of gap results in
→ breakage of marginal seal between the filling and
the cavity wall,
This breakage of seal (marginal percolation) leads to:

i. Marginal leakage ii. Discoloration
iii. Recurrent caries iv. Hypersensitivity.
marginal percolation sequlae:
2- Porcelain and metal in ceramometallic restorations
(crowns and bridges) to provide metal ceramic bonding.

3- Artificial tooth and denture base to avoid crazing.
 3- Heat of fusion
Heat of fusion (L) is the amount of heat in calories or joules
required to convert l gm of a material from the solid to the liquid
state at the melting temperature.
It is calculated as follows:
Q Where L: is the heat of fusion.
L = ---------------- Q: is the total heat absorbed.
m m: mass of the substance melted

As long as the mass is molten, the heat of fusion is retained by the
liquid. When the liquid is frozen or solidified, this heat is
liberated. It is called "Latent heat of fusion".
 Latent heat of fusion

It is the amount of heat in calories or joules liberated
when 1 gm of a material is converted from liquid to
solid state at freezing temp..
Importance in dentistry:
During casting, the metal must be heated 100 °C more
than its melting temperature for proper melting
Heat of fusion Latent heat of fusion
Dental significance

During casting metal must be heated 100°C
above its melting temperature
L
L+S
Tm
S

Time
 4-Melting and freezing temperature
Dental Importance:
For the fabrication of indirect metallic restorations
(casting), the melting temperature of metals and alloys is
important in determining the melting machine used for
casting + the mold material.
Tm

Time
 5-Specific heat
It is the quantity of heat needed to raise the temperature
of one gram of the substance 1°C
Therefore Metals have low specific heat, while non
metals have high specific heat

Importance in dentistry:
Because of the low specific heat of dental gold alloys,
prolonged heating is unnecessary, during casting
 6- Thermal diffusivity:

It is the rate at which a body with
a non-uniform temperature
approaches equilibrium

unit of measurement is mm2/sec. t1⁰C

Thermal diffusivity = t2⁰C t4⁰C

Thermal conductivity t3⁰C

Specific heat × density
 Significance in dentistry

--During caries removal, dentist should preserve
dentine bridge as possible as he can, because these
natural tooth tissues have low thermal diffusivity to
avoid thermal irritation to the pulp

-The low specific heat of a metallic restoration
combined with its high thermal conductivity leads to
thermal shock to the pulp.
-The insulating efficiency of lining material
depends on its thickness and its thermal
diffusivity.
 Less specific properties
1- Water Sorption:
It represents the amount of water adsorbed on the
surface and absorbed into the body of the
material.
Importance:
1- Acrylic resin denture base materials have the
tendency for water sorption.
2- Hydrocolloid impression materials will imbibe
water if immersed in it leading to dimensional
changes.
2-Fluidity, viscosity and plasticity:

Fluidity is the tendency of liquids to flow.

Viscosity is the resistance to flow.

Plasticity is a property related to solids or
semisolids and indicates that the material is
easily and permanently deformed under force.
 Electrical properties:.

1. Electrical conductivity and resistivity
2. Electromotive force.
3. Electrochemical coroosion.
 Optical Properties

The perception of the Color of an object is the result
of a physiological response to a physical stimulus (light).

Things Required To See Color
Light

When light is dispersed by a prism, all visible
wavelengths can be seen.
is an electromagnetic radiation that can be detected by
the human eye. It can be seen that the visible
electromagnetic radiation is in the range from 400-700
nanometers.
Interaction of light and matter
When a beam of light encounters or falls on a surface of
a medium, the following may occur :
1- Reflection:
A- Smooth surface: Reflections on a smooth surface give a glossy
appearance to the surface → Specular Reflection
Smooth surface: angle of incidence = angle of reflection
The restoration should have a highly smooth and polished surface to
simulate the tooth structure and match it.
B- Rough surface: Reflections of light on a rough surface are diffused (i.e:
in all directions). → Diffuse Reflection
The surface appears to have little gloss (i.e dull)
2- Refraction:
It is the change of the direction of a beam of light on entering
second medium.

Refraction results from the difference in refractive indices of
the two media.
For perfect matching the refractive index of the restoration
should be **equal to the refractive index of the tooth.
→ transparent solid
while ** large differences result in opaque materials.
Example: Control of refractive index of the filler and matrix
phases in composite resins and porcelain.
 3-Scattering:
If light rays passing through a medium are obstructed by any different
inclusions it will be redirected in another direction and is attenuated.
i.e The original beam is weakened by scattering in a direction away
from the observer eye →
↑ OPACITY ↓ TRANSLUCENCY.

Importance in dentistry:
1- Opacifiers & pigments added to composite resins act as scattering
centers that give rise to opaque shades of the material.

2- Incorporated air bubbles
in a restoration act as
scattering centers.
 4. Transmission( passage of light):

Light passing through an optical medium without attenuation
→ completely transmitted.
Total transmission occurs in perfectly transparent materials.
If part of the light is transmitted and part is reflected
( i.e. diffuse transmission), the material appears translucent.

Complete Transmission Transparent
Incomplete Transmission Translucent
No Transmission (absorption) Opaque
 Properties of materials in relation to
light transmission and absorption
Transparency

is a property of a material, that allows the passage of light in such
a manner that little distortion takes place so that objects can
be clearly seen through them
e.g. glass, pure acrylic resin.
Translucency
is a property of the material, which allows the passage of
some light and scatters or reflects the rest. In such
manner, the object cannot be clearly seen through them

Translucency decreases with increasing the scattering
centers.
e.g. tooth enamel, porcelain, composite and pigmented
acrylic resin.
Opacity

is a property of the material that prevents the passage of
light. Opaque material absorbs all of the light. Objects
cannot be seen through them.
-Black color materials absorb all light colors.
-White color materials reflect all light colors.
-Blue color materials absorb all light colors but reflect its
color.
 5. Luminescence (Fluorescence and
Phosphorescence):

Immediate emission is called fluorescence,
Delayed emission is called phosphorescence.
Importance in dentistry:

1. Sound human teeth emit fluorescent light
when excited by ultraviolet radiation. This
fluorescence contributes to the brightness
and vital appearance of human teeth.

2. Some anterior restorative materials and dental
porcelains are formulated with fluorescing agents
to reproduce the natural appearance.
 6. Dispersion:
White light is composed of a mixture of colors, which is
dispersed to its component colors by passing it through a
transparent medium(prism).

Applications:
Selective reflection and absorption.

700

350
COLOR
Color parameters:

A- Hue: It is the dominant wave length. It represents the color
of the material, i.e yellow, green, red and blue.

B- Chroma: It represents the strength of the color or degree of
saturation of the color (color intensity).
A beaker of water containing one drop of colorant is lower in
chroma than a beaker of water containing ten drops of the
same colorant.
C- Value:
It represents the lightness or darkness of color
(the amount of grayness).

A black standard is assigned a value of O, whereas a white standard is assigned 10.
***A tooth of low value appears gray and non–vital = dead,
therefore, it is the most important parameter. Because it is intimately related to
the aspect of vitality in human teeth.
Colors
Primary colors:
Blue, green and red are primary colors.
Combining suitable proportions of wave lengths of the
three primary colors results in white.
Secondary colors: Each secondary color
(cyan ,magenta & yellow) results from the combination
of two primary colors, e.g. green and red gives yellow,
blue and red gives magenta, blue and green gives cyan.
Complementary colors : Two colors are complementary
to each other when their combination results in white
e.g. yellow is the complementary color of blue.
 Factors affecting color appearance
and selection
Shade guide is used for color matching. So, it is
important to match colors under appropriate
Intra-oral spectrophotometer conditions.
 1- Source:

Different sources have different
color content. i.e Incandesnt light
has a color content different
from that of fluorescent light.
Metamerism: A phenomenon in which the human eye
observes two colors that seem to match in one light,
but then do not when the light changes.

Metameric pairs: Two objects that are matched in color
under one light source but are not matched under
other light sources form metameric pair.
Isomeric pair: They are color matched under all light
sources.
Thus, if possible, color matching should be done under
two or more different light sources.
2- Surrounding:
Colors of wall, lips or clothes of the patient
modify the type of light reaching the object.

3- Object:
A- Translucency:
It controls lightness or darkness of color.
High translucency gives a lighter color
appearance (higher value) i.e more vital tooth
appearance
B- Surface texture (surface finish):
This determines the relative amount of light reflected
from the surface, smooth surface appears brighter
than rough surface.

C- Presence of scattering centers as inclusions or voids:
This increase opacity and lower the value (more dark)
D- Fluorescence:
It makes the teeth bright and vital, as it
increases the brightness.

E- Thickness:
The thickness of a restoration can affect its
appearance.
Increase in thickness, increase opacity, and
lower the value.

F- Metamerism
4- Observer:
A- Color response:
Eye responds differently among individuals.

B- Color Vision:
Some individuals may have color blindness and inability to
distinguish certain colors.

C- Color Fatigue:
Constant stimulus of one color decreases the response to
that color.
Thank you