1 finite element method special purpose elements for readers of all backgrounds g. r. liu and s. s....
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1
FiFinite Element Methodnite Element Method
SPECIAL PURPOSE ELEMENTS
for readers of all backgroundsfor readers of all backgrounds
G. R. Liu and S. S. Quek
CHAPTER 10:
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2Finite Element Method by G. R. Liu and S. S. Quek
CONTENTSCONTENTS
CRACK TIP ELEMENTS METHODS FOR INFINITE DOMAINS
– Infinite elements formulated by mapping– Gradual damping elements– Coupling of FEM and BEM– Coupling of FEM and SEM
FINITE STRIP ELEMENTS STRIP ELEMENT METHOD
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3Finite Element Method by G. R. Liu and S. S. Quek
CRACK TIP ELEMENTSCRACK TIP ELEMENTS
Fracture mechanics – singularity point at crack tip.
Conventional finite elements do not give good approximation at/near the crack tip.
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4Finite Element Method by G. R. Liu and S. S. Quek
CRACK TIP ELEMENTSCRACK TIP ELEMENTS
x, u
y, v
r
From fracture mechanics,
31 sin sin
2 23
cos sin sin2 2 22
31 sin sin
2 2
xx
Ixy
yy
K
r
2
2
cos ( 1 2sin )2 2
2 2 sin ( 1 2cos )2 2
Iu K r
v G
(Near crack tip)
(Mode I fracture)
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5Finite Element Method by G. R. Liu and S. S. Quek
CRACK TIP ELEMENTSCRACK TIP ELEMENTS
H
L
L/ 4
H /4
Special purpose crack tip element with middle nodes shifted to quarter position:
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6Finite Element Method by G. R. Liu and S. S. Quek
CRACK TIP ELEMENTSCRACK TIP ELEMENTS
1 2 3
4
5 6
8
7
- 1 0 1
x
r
y
L L/4
x = 0.5 (1-)x1 + (1+)(1-)x2 + 0.5 (1+) x3
u = 0.5 (1-)u1 + (1+)(1-)u2 + 0.5 (1+) u3
(Measured from node 1)
Move node 2 to L/4 position
x1 = 0, x2 = L/4, x3 = L, u1 = 0
x = 0.25(1+)(1-)L + 0.5 (1+)L
u = (1+)(1-)u2+0.5 (1+) u3
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7Finite Element Method by G. R. Liu and S. S. Quek
CRACK TIP ELEMENTSCRACK TIP ELEMENTSSimplifying,
x = 0.25(1+)2L
u= (1+)[(1-)u2+0.5u3]
Along x-axis, x = r
r = 0.25(1+)2L or (1 ) 2r
L
u = 2(r/L) [(1-)u2 + 0.5u3] Note: Displacement is proportional to r
u u
x x
0.5(1 ) = x
L r L
where
Therefore, 2 3
1 1 1[ 2 ( ) ]
2
uu u
x r L
Note: Strain (hence stress) is proportional to 1/r
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8Finite Element Method by G. R. Liu and S. S. Quek
CRACK TIP ELEMENTSCRACK TIP ELEMENTS Therefore, by shifting the nodes to quarter
position, we approximating the stress and displacements more accurately.
Other crack tip elements:
L
L /4
L L /4
Triangular crack tip elements
A 3 - D, wedge crack tip element
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9Finite Element Method by G. R. Liu and S. S. Quek
METHODS FOR INFINITE DOMAINMETHODS FOR INFINITE DOMAIN
Infinite elements formulated by mapping
(Zienkiewicz and Taylor, 2000)Gradual damping elementsCoupling of FEM and BEMCoupling of FEM and SEM
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10Finite Element Method by G. R. Liu and S. S. Quek
Infinite elements formulated by mappingInfinite elements formulated by mapping
Use shape functions to approximate decaying sequence:
31 22 3
...CC C
r r r
In 1D:
P Q R - 1 +1
R at P Q x
y
O
Map
11 1O Qx x x
(Coordinate interpolation)
Or x x 1 1Q O Q O
O
x x x x
x x r
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11Finite Element Method by G. R. Liu and S. S. Quek
Infinite elements formulated by mappingInfinite elements formulated by mapping
If the field variable is approximated by polynomial,
2 30 1 2 3 ...u
Substituting will give function of decaying form,
For 2D (3D):1 1
1 1
1 1
11 1
11 1
11 1
O Q
O Q
O Q
x x x
y y y
z z z
31 22 3
...CC C
r r r
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12Finite Element Method by G. R. Liu and S. S. Quek
Infinite elements formulated by mappingInfinite elements formulated by mapping
R at P Q
x
y
O
O 1 P 1 Q 1 R 1 at
P Q
R
P 1 Q 1 R 1
1
1
- 1
- 1
Map
Element PP1QQ1RR1 :
1 1
1
0
( ) 11 1
( )1 1
O Q
O Q
x N x x
N x x
with 1 0
1 1( ) , ( )
2 2N N
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13Finite Element Method by G. R. Liu and S. S. Quek
Infinite elements formulated by mappingInfinite elements formulated by mapping
Infinite elements are attached to conventional FE mesh to simulate infinite domain.
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14Finite Element Method by G. R. Liu and S. S. Quek
Gradual damping elementsGradual damping elements
For vibration problems with infinite domain Uses conventional finite elements, hence great
versatility Study of lamb wave propagation
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15Finite Element Method by G. R. Liu and S. S. Quek
Gradual damping elementsGradual damping elements
Attaching additional damping elements outside area of interest to damp down propagating waves
Gradual increase in structural damping Area of interest of analysis
Additional damping element sections
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16Finite Element Method by G. R. Liu and S. S. Quek
Gradual damping elementsGradual damping elements
Structural damping is defined as
Hc
Equation of motion with damping under harmonic load:
) exp( tifukucum
iHu
uH
force dampingSince,
Therefore, ) exp( tii fumuHk
(Since the energy dissipated by damping is usually independent of )
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17Finite Element Method by G. R. Liu and S. S. Quek
Gradual damping elementsGradual damping elements
) exp( tii fumuHk
Complex stiffness
Replace E with E(1 + i) where is the material loss factor.
Therefore, kkHk ii
ukukuc eeeee
Hence,
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18Finite Element Method by G. R. Liu and S. S. Quek
Gradual damping elementsGradual damping elements
EiEE kok
For gradual increase in damping,
Complex modulus for the kth damping element set
Initial modulusInitial material loss factor
Constant factor
• Sufficient damping such that the effect of the boundary is negligible.
• Damping is gradual enough such that there is no reflection cause by a sudden damped condition.
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19Finite Element Method by G. R. Liu and S. S. Quek
Coupling of FEM and BEMCoupling of FEM and BEM
The FEM used for interior and the BEM for exterior which can be extended to infinity [Liu, 1992]
Coupling of FEM and SEMCoupling of FEM and SEM
The FEM used for interior and the SEM for exterior which can be extended to infinity [Liu, 2002]
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20Finite Element Method by G. R. Liu and S. S. Quek
FINITE STRIP ELEMENTSFINITE STRIP ELEMENTS
Developed by Y. K. Cheung, 1968. Used for problems with regular geometry and
simple boundary. Key is in obtaining the shape functions.
x
y
z
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21Finite Element Method by G. R. Liu and S. S. Quek
FINITE STRIP ELEMENTSFINITE STRIP ELEMENTS
1
r
m mm
w f x Y
(Approximation of displacement function)
(Polynomial) (Continuous series)
Polynomial function must represent state of constant strain in the x direction and continuous series must satisfy end conditions of the strip.
Together the shape function must satisfy compatibility of displacements with adjacent strips.
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22Finite Element Method by G. R. Liu and S. S. Quek
x
y
z
FINITE STRIP ELEMENTSFINITE STRIP ELEMENTS
Y(0) = 0, Y’’(0) = 0, Y(a) = 0 and Y’’(a) = 0 a
sin mm
yY y
a
m = , 2, 3, …, m
b
1 2
x d1, d2 d3, d4 1
21 2 3 4
3
4
( )
m
m
m m
m
d
df x C C C C
d
d
Satisfies
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23Finite Element Method by G. R. Liu and S. S. Quek
FINITE STRIP ELEMENTSFINITE STRIP ELEMENTS
3 2
1 3 2
3 2
2 2
3 2
3 3 2
3 2
4 2
2 31
2
2 3
( )
x xC x
b b
x xC x x
b b
x xC x
b b
x xC x
b b
b
1 2
x d1, d2 d3, d4
Therefore,
1 1 2 2 3 3 4 41
, ( )r
m m m mm
m
w x y C x d C x d C x d C x d Y y
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24Finite Element Method by G. R. Liu and S. S. Quek
FINITE STRIP ELEMENTSFINITE STRIP ELEMENTS 1 1 2 2 3 3 4 4
1
, ( )r
m m m mm
m
w x y C x d C x d C x d C x d Y y
or 1
21 2 3 4
1 3
4
,
m
mrm m m m
mm
m
d
dw x y N N N N
d
d
where ,mi i mN x y C x Y y i = 1, 2, 3 ,4
The remaining procedure is the same as the FEM. The size of the matrix is usually much smaller and makes the solving much easier.
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25Finite Element Method by G. R. Liu and S. S. Quek
STRIP ELEMENT METHOD (SEM)STRIP ELEMENT METHOD (SEM)
Proposed by Liu and co-workers [Liu et al., 1994, 1995; Liu and Xi, 2001].
Solving wave propagation in composite laminates. Semi-analytic method for stress analysis of solids
and structures. Applicable to problems of arbitrary boundary
conditions including the infinite boundary conditions.
Coupling of FEM and SEM for infinite domains.