3 year dental materials science
TRANSCRIPT
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16.11.2007 Dental Materials - Graham Cross 1
3rd Year Dental Materials Science
Dr. Graham CrossSchool of Physics and CRANN
SFI Nanoscience Building, Rm 1.5
http://www.tcd.ie/Physics/People/Graham.Cross/
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Oct. 26: Basic metallurgy and alloysNov. 2: Properties of materials, thermalsNov. 16: Mechanics of solids and fluids
Topics
Textbooks – Further Reading
Applied Dental Materials – 8 th Edition 1998, John F. McCabe, Angus W. G. Walls, Blackwell, Oxford, UK.• Restorative Dental Materials – 10th Edition 1997 Editor Robert G. Craig, Mosby – Year Book, Inc, St. Louis, USA• Notes on Dental Materials – 6th Edition 1992 Editor E.C. Combe, Churchill Livingstone, Edinburgh, UK• Phillip’s Science of Dental Materials – 10th Edition 1996, Editor Kenneth J. Arusavice, W.B. Saunders Company Philadelphia, USA• Dental Materials, Properties and Manipulation – 6th Edition 1996 Editors Robert G. Craig, William J. O’Brien, John M. Power, Mosby – Year Book, Inc, St. Louis, USA
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• Stress and strain
• Elasticity and viscosity: Solids vs. fluids
• Rheology and Plasticity
• Viscoelasticity
Mechanical properties of materials
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• We all understand generally what the difference between solid and a liquid is, but in practice this difference can be blurred..• A very general distinction is this:
• Elastic behaviourWhen you apply and then remove a force, fast or slow, the object returns to its original shape!
• Inelastic behaviour (flow)When you apply and remove a force, the shape of the object is permanently changed.
Solids vs. liquids
How can we understand the reaction of materials to forces independently of the geometry of the tested object?
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• Stress is the force per unit area applied to an object:
Stress
ForceArea
σ =• Units = N/m2 or Pascals (Pa)• Also: 1 bar = 101.3 kPa• 1 MPa = 106 Pa
Compressive Tensile Shear
• Different ways of applying stress, over a surface:
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• Adhesion may be defined simply as a force interaction between two materials at an interface where they are in contact.• Failure occurs at a critical stress level
Adhesion
Mechanical Chemical
Interface must support a solely tensile load:
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Area of contact and stress
Chemical Adhesion
• Rough surfaces mean small contact area, so a small force makes a large stress at local points on surface, causing failure• Polishing a surface to make it smooth increases area and reduces stress
• Adhesive strength depends on true contact area limited by roughness:
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• Strain ε is a measure of the change in dimension of an object that occurs by the application of stress.• It is defined as a relative displacement:
Strain
dll
ε =
Different kinds of strain
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Many properties can be determined from it:
• Elastic modulus• Tensile strength• Yield strength• Ductility• Resilience• Fracture toughness
Stress vs. strain curve
Stressσ
Strain ε
• This is an intrinsic signature of a material• Why would a force vs. displacement curve not be?
See: Applied Dental Materials – 8th Edition 1998, John F. McCabe, Angus W. G. Walls, Chapter 2.
A principle way to characterize mechanical properties of solid materials.
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• Reversible stretching, compression, or deforming of a body
Elasticity
Strain εεlimit
εlimit = 0.02 Ceramics/Metals= 0.1 Polymer glasses> 5 Some elastomers!
Eσ ε=
• Different modulus are defined for different types of deformation:
• Young’s modulus• Shear modulus• Bulk modulus
• In the linear elastic range, the ratio of stress to strain is called a modulus
Stressσ
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Elastic Modulus
BulkB=10 GPa
Young’sE=3 GPa
ShearG=1 GPa
Before
After
Polystyrene:
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• Shear strain γ is a skew: it changes shape, not volume.• Very important when we consider flow.
Shear strain
dyh
γ ≡
d dy h dy dtdt dt hγ
= =
yvddt hγ
=
Shear strain rate:h
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• What shear stress τ must be applied between the two plates to get vy?
Simple fluid flow
Force
yv dh dt
γτ ∝ =
vy velocityin y direction
x
NB: Fluid velocity at walls is zero with respect to wall(Fluid “sticks” to the walls)
y
Shear ForceArea
τ =
Stress is proportional to shear strain rate!
• Newton’s law of fluid flow:Shear stress τ is proportional to the flow velocity gradient normal to flow:
• Consider fluid between to large plates of area A:
h
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Why shear is important for flow
Forcebetweenatoms
Distance of separation
Attractive
Repulsive
Bonding energy
• Compressive/tensile stress:- Changing the distance of separation of atoms is difficult (volume change)• Shear stress: - Changing neighbours between atoms is much easier (shape change)
Easy!
Difficult!
A liquid changes shape, not volume, freely
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Solid vs. Liquid
Energy Positionsolid
Atoms deep in energy well
(Low Temperature)
vacancy
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Solid vs. Liquid
Energy Positionsolid
Atoms deep in energy well
(Low Temperature)
vacancy
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Solid vs. LiquidEnergy Position
Energy Position
solid
liquid
Atoms deep in energy well
Atoms can hop over energy barrier!
(Low Temperature)
(High Temperature)
vacancy
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• Viscosity η describes the way momentum is transferred by a fluid during flow
ViscosityForce
ddtγτ ∝
ddtγτ η= 100Honey
1040 (?)Glass
0.015Mercury
0.0089Water
0.00018Air
Viscosity ηPa s
Fluid
η Units: Pa s(Poise)
• For simple fluids it is a constant of proportionality between shear stress and shear rate (Newton):
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• Study of the flow of all materials, including solids and complex liquids such as polymer melts, colloids, suspensions, slurries, pastes, etc.
• Consider a complex fluid, a polymer melt: What happens when you shear this material?
• Molecules both flow and they change their shape… they “relax”
• Gives rise to both shear rate (dγ/dt) and time dependent behaviour.
Rheology
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• Due to mechanical reasons such as relaxation time of constitutive particles in transient (ie. non-steady) flows
• Or due to chemical reasons such as setting times
• Usually viscosity will be used to measure this:
Initial low viscosity for dispensing and mouldingFollowed by large increase in viscosity during setting
Working time – time the material can be easily manipulatedSetting time – time at which viscosity goes very high
Time dependent material response
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• Poor rheological properties- no well defined setting time
Viscosity and setting time of pastes
Viscosityη
Time tTime tTime t
• Ideal rheological properties- long working time- sudden setting time
• Good rheological properties- long working time- reasonable setting time
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Shear rate dependent flow
Shear rate
ShearStress
τ
ShearStress
τ
Shear rate ddtγ
Newtonian linear fluid a) Dilatant
b) Pseudoplastic (shear thinning)
a
b
ddtγ
Fluids: Instead of a stress vs. strain curve, we plot a stress vs. strain rate curve
ddtγτ η=
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• Ductile behaviour of a solidthat occurs above a special shear stress threshold called the “yield stress”: τyield
• This occurs for many metals and glassy polymers
• Ceramic materials tend to fracture, not yield
Plasticity: flow of solids
Shear Stressτ
Strain ε
τyield
Ductility
Like a liquid, plastic flow of solids involves shape change, not volume change
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Shearing a solid: Plastic flowEnergy Position
Energy Position
solid
sheared solid
One line of atoms changes neighboursStress, not temperature, increases the energy level
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• Response of materials with both elastic and viscous character:
time dependent• Eg. Elastomers
• Two important forms:• Creep• Stress relaxation
Viscoelasticity
• Visualized by combining mechanical components of• Springs (elastic): instant response to stress• Dash-pots (viscous): slow response
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•Eg. Weight of a gold filling, effect on elastomer padding layer
• Important for dental amalgams:- Melting temperature is close
to room temperature- Teeth clenching- Creep may be precursor to
fracture at filling edge.
Creep
Stress
Strain
Time
σ
0
σ
• Time dependent dimensional change of materials under constant stress.
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• Eg. Dental waxes, resins, and gels• Manipulate into shape, then stress drops over time• This can, in turn, lead to dimensional changes on other surrounding loaded structures.
Stress relaxation
Time t
Stressσ
Applied Dental Materials – 8th Edition 1998, John F. McCabe, Angus W. G. Walls, Blackwell, Oxford, UK.
For more examples, see:
When a viscoelastic material is under constant strain a gradual reduction in stress can occur