bone tissue mechanics - fenixeduprfernan/biomedica/aula_2011.02.21.pdf · beer & johnston...
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![Page 1: Bone Tissue Mechanics - FenixEduprfernan/biomedica/Aula_2011.02.21.pdf · Beer & Johnston (McGraw Hill) Biomecânica dos Tecidos, MEBiom, IST Ductile Material –Von Mises criterion](https://reader034.vdocuments.net/reader034/viewer/2022042112/5e8e2933a3d3fb09d7605c53/html5/thumbnails/1.jpg)
Biomecânica dos Tecidos, MEBiom, IST
Bone Tissue Mechanics
João Folgado
Paulo R. Fernandes
Instituto Superior Técnico, 2011
PART 2
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Biomecânica dos Tecidos, MEBiom, IST
Stress
s2
s2
s3
s13
s12
s21syz
s31
s32
x1
x2
x3
0limQA
F
As
- In general every plane containing the
point Q has a normal and a shearing stress
component.
- Stress is a measure of the internal forces
associated to the plane of interest.
- The general state of stress is described
by the components in a x1, x2, x3 reference
system.
- Only six components because the tensor
is symmetric.
s11, s22, s33 – normal stress
s12, s13, s23 – shearing stress
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Biomecânica dos Tecidos, MEBiom, IST
Stress
- Stress components depend on the reference system.
- The same state of stress is represented by a different set of components if
axes are rotated.
Beer & Johnston (McGraw Hill)
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Biomecânica dos Tecidos, MEBiom, IST
Transformation of coordinates: Problem 1
Assume the plane stress state given by its components in the x-y system (x
is the horizontal axis and y is the vertical one):
Write the components of this stress tensor in the reference system which makes
with the previous one:
a) 90º b) 18,4º
6 3
3 2s
2D example
![Page 5: Bone Tissue Mechanics - FenixEduprfernan/biomedica/Aula_2011.02.21.pdf · Beer & Johnston (McGraw Hill) Biomecânica dos Tecidos, MEBiom, IST Ductile Material –Von Mises criterion](https://reader034.vdocuments.net/reader034/viewer/2022042112/5e8e2933a3d3fb09d7605c53/html5/thumbnails/5.jpg)
Biomecânica dos Tecidos, MEBiom, IST
Transformation of coordinates
For an angle q (and 2D)
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Biomecânica dos Tecidos, MEBiom, IST
![Page 7: Bone Tissue Mechanics - FenixEduprfernan/biomedica/Aula_2011.02.21.pdf · Beer & Johnston (McGraw Hill) Biomecânica dos Tecidos, MEBiom, IST Ductile Material –Von Mises criterion](https://reader034.vdocuments.net/reader034/viewer/2022042112/5e8e2933a3d3fb09d7605c53/html5/thumbnails/7.jpg)
Biomecânica dos Tecidos, MEBiom, IST
![Page 8: Bone Tissue Mechanics - FenixEduprfernan/biomedica/Aula_2011.02.21.pdf · Beer & Johnston (McGraw Hill) Biomecânica dos Tecidos, MEBiom, IST Ductile Material –Von Mises criterion](https://reader034.vdocuments.net/reader034/viewer/2022042112/5e8e2933a3d3fb09d7605c53/html5/thumbnails/8.jpg)
Biomecânica dos Tecidos, MEBiom, IST
![Page 9: Bone Tissue Mechanics - FenixEduprfernan/biomedica/Aula_2011.02.21.pdf · Beer & Johnston (McGraw Hill) Biomecânica dos Tecidos, MEBiom, IST Ductile Material –Von Mises criterion](https://reader034.vdocuments.net/reader034/viewer/2022042112/5e8e2933a3d3fb09d7605c53/html5/thumbnails/9.jpg)
Biomecânica dos Tecidos, MEBiom, IST
Draw the Mohr’s circle for this stress state.
6 3
3 2s
Transformation of coordinates:
Problem 2 (Using the Mohr’s Circle)
Assume the plane stress state given by its components in the x-y system (x
is the horizontal axis and y is the vertical one):
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Biomecânica dos Tecidos, MEBiom, IST
Mohr’s circle (2D)
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Biomecânica dos Tecidos, MEBiom, IST
![Page 12: Bone Tissue Mechanics - FenixEduprfernan/biomedica/Aula_2011.02.21.pdf · Beer & Johnston (McGraw Hill) Biomecânica dos Tecidos, MEBiom, IST Ductile Material –Von Mises criterion](https://reader034.vdocuments.net/reader034/viewer/2022042112/5e8e2933a3d3fb09d7605c53/html5/thumbnails/12.jpg)
Biomecânica dos Tecidos, MEBiom, IST
Principal Stresses
- Structures are often subject to different combined loads. For instance a beam
is usually subject to normal stress due to bending and shear stress due to the
transverse load.
- Principal stresses are the stresses in the planes where the shear stress is zero.
- The highest principal stress is the maximum normal stress while the lowest is
the minimum normal stress.
Beer & Johnston (McGraw Hill)
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Biomecânica dos Tecidos, MEBiom, IST
Koch (1917)
Principal Stresses in the Femur
![Page 14: Bone Tissue Mechanics - FenixEduprfernan/biomedica/Aula_2011.02.21.pdf · Beer & Johnston (McGraw Hill) Biomecânica dos Tecidos, MEBiom, IST Ductile Material –Von Mises criterion](https://reader034.vdocuments.net/reader034/viewer/2022042112/5e8e2933a3d3fb09d7605c53/html5/thumbnails/14.jpg)
Biomecânica dos Tecidos, MEBiom, IST
Principal Stresses in the Femur
Fernandes, Rodrigues
and Jacobs (1999)
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Biomecânica dos Tecidos, MEBiom, IST
Proposed Problem:
For the given state of plan stress:
Determine the principal stresses and principal directions.
6 3
3 2s
Principal Stresses for a 2D state of stress
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Biomecânica dos Tecidos, MEBiom, IST
Principal stresses and directions are solution of an eigenvalues and eigenvectors
problem:
Principal stresses-eigenvalues
Principal stresses
In the principal reference system (principal directions) the stress state
is represented by:
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Biomecânica dos Tecidos, MEBiom, IST
Principal directions - eigenvectors
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Biomecânica dos Tecidos, MEBiom, IST
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Biomecânica dos Tecidos, MEBiom, IST
Mohr’s circle for a 3D state of stress
• The three circles represent the normal and shearing stresses for rotation
around each principal axis.
• Points A, B, and C represent the principal stresses on the principal planes
(shearing stress is zero)
minmaxmax2
1ss
• Radius of the largest circle yields the maximum shearing stress.
Beer & Johnston (McGraw Hill)
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Biomecânica dos Tecidos, MEBiom, IST
Failure Criteria
• Failure of a component
subjected to uniaxial stress is
directly predicted from an
equivalent tensile test
• Failure of a component subjected to a general state of stress cannot be
directly predicted from the uniaxial state of stress in a tensile test
specimen
• Failure criteria are based on the mechanism of failure (ductile vs. brittle
materials). Allows comparison of the failure conditions for a uniaxial stress
test and biaxial component loading
Beer & Johnston (McGraw Hill)
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Biomecânica dos Tecidos, MEBiom, IST
Ductile Material – Von Mises criterion
Problem:
A cylindrical sample with an outer diameter of de=32 mm and a inner diameter of
di=16 mm, is subject to a bending moment M=140 N.m and a torque of T=210
N.m.
The material is isotropic with a normal yield stress of se=115 MPa.
Verify if under these conditions the material yields.
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Biomecânica dos Tecidos, MEBiom, IST
Loading
Cross-section properties
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Biomecânica dos Tecidos, MEBiom, IST
Bending
Normal stress function of y State of stress where the bending stress is maximum:
![Page 24: Bone Tissue Mechanics - FenixEduprfernan/biomedica/Aula_2011.02.21.pdf · Beer & Johnston (McGraw Hill) Biomecânica dos Tecidos, MEBiom, IST Ductile Material –Von Mises criterion](https://reader034.vdocuments.net/reader034/viewer/2022042112/5e8e2933a3d3fb09d7605c53/html5/thumbnails/24.jpg)
Biomecânica dos Tecidos, MEBiom, IST
Torsion
Shear stress function of r State of stress where the shear is maximum:
![Page 25: Bone Tissue Mechanics - FenixEduprfernan/biomedica/Aula_2011.02.21.pdf · Beer & Johnston (McGraw Hill) Biomecânica dos Tecidos, MEBiom, IST Ductile Material –Von Mises criterion](https://reader034.vdocuments.net/reader034/viewer/2022042112/5e8e2933a3d3fb09d7605c53/html5/thumbnails/25.jpg)
Biomecânica dos Tecidos, MEBiom, IST
Bending + Torsion (combined where both shear and normal stress have the maximum values)
2D state of stress (plane
stress)
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Biomecânica dos Tecidos, MEBiom, IST
State of stress at A
State of stress at B
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Biomecânica dos Tecidos, MEBiom, IST
Yield Criterion -Von Mises criterion (Ductile Materials)
• Yield occurs when the distortion energy per unit volume is greater
than that occurring in a tensile test specimen at yield.
• In the distortion energy is possible to identify a term to compare
directile to the yied normal stress given by the tensile test.
For a plane stress state (sa and sb are the principal stresses):
• This term is the equivalent Von Mises Stress
222
2222 006
1
6
1
Ybbaa
YYbbaa
Yd
GG
uu
sssss
ssssss
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Biomecânica dos Tecidos, MEBiom, IST
Yield Criterion -Von Mises criterion (Ductile Materials)
• In pratice we compare the Von Mises stress with the yield stress of the
material.
Thus, the failure (yield) occurs when:
= Yield stress of the material.
Von Mises Stress
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Biomecânica dos Tecidos, MEBiom, IST
For the proposed problem
Comparing with the yield stress given for the material
The sample is safe. Yield
does not occur.
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Biomecânica dos Tecidos, MEBiom, IST
A cylindrical sample with an outer diameter of de=32 mm and a inner diameter
of di=16 mm, is subject to a bending moment M=140 N.m and a torque of
T=210 N.m.
The material is isotropic and brittle with failure tensile stress of stf=133 MPa
and failure compressive stress of scf=195 Mpa.
Verify if under these conditions the material fails.
Brittle Material – Mohr criterion
Problem:
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Biomecânica dos Tecidos, MEBiom, IST
Loading
Cross-section properties
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Biomecânica dos Tecidos, MEBiom, IST
Bending
Normal stress function of y State of stress where the bending stress is maximum:
![Page 33: Bone Tissue Mechanics - FenixEduprfernan/biomedica/Aula_2011.02.21.pdf · Beer & Johnston (McGraw Hill) Biomecânica dos Tecidos, MEBiom, IST Ductile Material –Von Mises criterion](https://reader034.vdocuments.net/reader034/viewer/2022042112/5e8e2933a3d3fb09d7605c53/html5/thumbnails/33.jpg)
Biomecânica dos Tecidos, MEBiom, IST
Torsion
Shear stress function of r State of stress where the shear is maximum:
![Page 34: Bone Tissue Mechanics - FenixEduprfernan/biomedica/Aula_2011.02.21.pdf · Beer & Johnston (McGraw Hill) Biomecânica dos Tecidos, MEBiom, IST Ductile Material –Von Mises criterion](https://reader034.vdocuments.net/reader034/viewer/2022042112/5e8e2933a3d3fb09d7605c53/html5/thumbnails/34.jpg)
Biomecânica dos Tecidos, MEBiom, IST
Bending + Torsion (combined where both shear and normal stress have the maximum values)
2D state of stress (plane
stress)
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Biomecânica dos Tecidos, MEBiom, IST
State of stress at A
State of stress at B
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Biomecânica dos Tecidos, MEBiom, IST
Brittle Material – Mohr criterion
failure occurs when
where are the principal stresses (the highest and the lowest)
is the limiting tensile stress (tensile test)
is the limiting compressive stress (compression test)
Can be positive or negative
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Biomecânica dos Tecidos, MEBiom, IST
Principal stresses for the proposed problem
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Biomecânica dos Tecidos, MEBiom, IST
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Biomecânica dos Tecidos, MEBiom, IST
Mohr’s criterion – Point A
Mohr’s criterion – Point B
Remark: At B the risk of the material is bigger (0.58 > 0.47) because the sample
is in tension due to bending and the limiting stress in tension is smaller than in
compression.
Thus, there is no fail
Thus, there is no fail
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Biomecânica dos Tecidos, MEBiom, IST
Bibliography
Skeletal Tissue Mechanics , R. Bruce Martin, David B. Burr, Neil A.
Sharkey, Springer Verlag,1998.
Orthopaedic Biomechanics, Mechanics and Design in
Musculeskeletal Systems, D. Bartel, D. Davy, T. Keaveny, Pearson
Prentice Hall, 2006.
Bone Mechanics Handbook, 2nd Edition, S.C. Cowin, CRC Press,
2001
Mechanics of Materials, 5th Edition, F. Beer, Jr., E. R. Johnston , J.
DeWolf, D. Mazurek, McGraw Hill, 2009