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Hans Welleman 1
Slender Structures
Load carrying principles
Continuously Elastic Supported (basic) Cases:
• Extension, shear
• Euler-Bernoulli beam (Winkler 1867)
v2019-4
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Content (preliminary schedule)
Basic cases
– Extension, shear, torsion, cable
– Bending (Euler-Bernoulli)
Combined systems
- Parallel systems
- Special system – Bending (Timoshenko)
Continuously Elastic Supported (basic) Cases
Cable revisit and Arches
Matrix Method
Hans Welleman 2
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Learning objectives
Extend the technique for basic cases
Find the ODE for a specific case and the boundary
conditions for the specific application
Solve the more advanced ODE’s (by hand and
MAPLE)
Investigate consequences/limitations of the model
and check results with limit cases
Hans Welleman 3
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Basic Cases
Second order DE
Extension
Shear
Torsion
Cable
Hans Welleman 4
Fourth order DE
Bending
2
2
2
2
2
2
2
2
d
d
d
d
d
d
d
d
xt
uEA q
x
wk q
x
GI mx
zH q
x
ϕ
− =
− =
− =
− =
4
4
d
d
wEI q
x=
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Model
(ordinary) Differential Equation – (O)DE
– Boundary conditions
– Matching conditions
Hans Welleman 5
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Extension(prismatic)
Hans Welleman 6
“axial stiffness” EA
external load no
internal generalised stress, normal force N …. BC
axial deformation or strain ε
displacement field (longtitudinal) u …. BC
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ODE
Fundamental relations
Kinematic relation
Constitutive relation (Hooke)
Equilibrium
Hans Welleman 7
d
d
u
xε =
N EAε=
d d 0
d
d
N p x N N
Np ku
x
− − + + = ⇔
= =
2
2
d d d
d d d
u N uN EA EA ku
x x x= → = =�
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Hans Welleman 8
Example: pull out test
Solve the ODE using parameters
Write down the boundary conditions
concrete
rebar
l not known yet
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I found as an answer
u(x) = ………………………………………
Boundary Conditions:
……………………………………………..
……………………………………………..
……………………………………………..
……………………………………………..
Hans Welleman 9
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Some values
Hans Welleman 10
2 5 2
3 2 12
10 mm;
400 N/mm ; 2.1 10 N/mm ;
concrete:
30 10 N/mm ;
y s
c c
steel rebar
f E
E k E
φ =
= = ×
= × =
Find some results
for 25 kN load …
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Interpretation of results
Slope of u(0) and N(0) intersect x-axis at distance 1/αfrom origin.
1/α is length of the “influence zone”
Find α by experiment: impose F and measure u(0)
Hans Welleman 11
2
(0)e e
e
FF k u k kEA
F
kEA
kk
EA
= = =
=
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Shear(prismatic)
Hans Welleman 12
“shear stiffness” GAeff
external load q
internal generalised stress, shear force V …. BC
shear deformation γ
displacement field w …. BC
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ODE
2
2
d d d
d d deff eff
w V wN GA GA kw q
x x x= → = = −�
Fundamental relations
Kinematic relation
Constitutive relation (Hooke)
Equilibrium
Hans Welleman 13
d
d
w
xγ =
effV GA γ=
( )d d 0
d
d
V q kw x V V
Vkw q
x
− + − + + =
= −
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Veerse Gat 1961
Hans Welleman 14
Photo : Aart Klein, 24 april 1961
Why this shear type of caisson?
Gates are closed after positioning
of all caissons. The walls must
remain parallel in order to operate
the gates.
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Result so far
Hans Welleman 15
2 22 2
2 2
2 22 2
2 2
extention (homogeneous):
d d0 0 with:
d d
shear (inhomogeneous):
d dwith:
d deff
eff eff
u u kEA ku u
EAx x
w w q kGA kw q w
GA GAx x
α α
α α
− + = → − = =
− + = → − = − =
1 2
homogeneous solution:
( ) x xhu x C e C e
α α−= +
2
2
1 2
homogeneous solution:
( )
particular solution:
( ) ( )
( ) ( )
( ) sin ( ) sin
x xh
oo p
oo p
ox xo pl l
effl
w x C e C e
qq x q w x
k
qq x q x w x x
k
qq x q w x
GA k
α α
π ππ
−= +
= → =
= → =
= → =+
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Assignment : Find improved model for shear beam on elastic foundation
Hint : Adjust for rotation in shear beam
Hans Welleman 16
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Beam(prismatic, only bending deformation)
Hans Welleman 17
external load q
internal generalised stress, shear and moment V, M …. BC
bending deformation, curvature κ
rotation and displacement ϕ, w …. BC
k = foundationmodulus [N/m2]
c = modulus of subgrade [N/m3]
(beddingsconstante),
gravel c = 108 N/m3
sand c = 107 N/m3
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ODE
4
4
d d d
d d d
V wM EI EI kw q
x x x
ϕ= → = − = −�
Fundamental relations
Kinematic relation
Constitutive relation (Hooke)
Equilibrium
Hans Welleman 18
d d;
d d
w
x x
ϕϕ κ= − =
M EIκ=
( )d d 0
d d;
d d
V q kw x V V
V Mkw q V
x x
− + − + + =
= − =
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Solving the ODE
Hans Welleman 19
4
4
44 4
4
d
d
rewrite as:
d4 : 4
d
wEI k w q
x
w q kw with
x EI EIβ β
+ × =
+ = =
move to slide 24 …
or if fan of math continue …
Find homogeneous solution:4
4
4
4 4 4 4
d4 0
d
:
4 0 4
x
ww
x
subst w eλ
β
λ β λ β
+ =
=
+ = = −
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… some math …
Hans Welleman 20
( )
( )
14
14
4 4
4 4 4 4
4 2 24 4
4
4
4 ( 1) 4 1
2 1 2 1
2 1 2 1
λ β
λ β λ β
λ λ β β
λ β β
= −
= × − = × −
= = × − = × −
= × − = × −
Complex …
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… some background …
Hans Welleman 21
( ) ( )1144
( 2 )
( 2 ) ( / 4 / 2)
1 cos sin
note: plus or min 2 is the same, so:
1 cos( 2 ) sin( 2 )
1 cos( ) sin( )4 2 4 2
four roots for 0,1, 2 en 3
1 1- -1 1-, , ,
2 2 2 2
i
i m
i m i m
i e
m i m e
m me e i
m
i i i i
π
π π
π π π π
π π
π
π π π π
π π π π
+
+ +
− = + =
− = + + + =
− = = = + + +
=
+ + −
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… apply this …
Hans Welleman 22
( )14
1,2,3,4
1,2,3,4
1 2
3 4
2 1
12
2
(1 ) (1 )
( 1 ) ( 1 )
i
i i
i i
λ β
λ β
λ β λ β
λ β λ β
= × −
± ± = ×
= × + = × −
= × − + = × − −
Homogeneous solution:
31 2 4( )xx x x
hw x Ae Be Ce Deλλ λ λ= + + +
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.. a few more last steps …
Hans Welleman 23
31 2 4( )xx x x
hw x Ae Be Ce Deλλ λ λ= + + +
(1 ) (1 ) (1 ) (1 )( ) i x i x i x i x
hw x Ae Be Ce Deβ β β β+ − − − − += + + +
( ) ( )( ) x ix ix x ix ix
hw x e Ae Be e Ce Deβ β β β β β− − −= + + +
:
cos sin and cos sinix ix
Euler
e x i x e x i xβ ββ β β β−= + = −
what is this complex stuff??
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.. almost there …
Hans Welleman 24
{ } { }( )
{ } { }( )
( ) cos sin cos sin
cos sin cos sin
x
h
x
w x e A x i x B x i x
e C x i x D x i x
β
β
β β β β
β β β β−
= + + − +
+ + −
( )
( )
( ) ( ) cos ( )sin
( ) cos ( ) sin
x
h
x
w x e A B x i A B x
e C D x i C D x
β
β
β β
β β−
= + + − +
+ + −
A-B and C-D complex
1 2
3 4
use new constants:
; ( )
; ( )
C A B C i A B real
C C D C i C D real
= + = −
= + = −
complex conjugate - assume:
; ;
2 ; 2
A a ib B a ib
A B a A B ib
= − = +
+ = − = −
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.. Okay we are there …
Hans Welleman 25
( ) ( )1 2 3 4( ) cos sin cos sinx x
hw x e C x C x e C x C xβ ββ β β β−= + + +
damping term for x < 0 damping term for x > 0
sinoidal shape (wave)sinoidal shape (wave)
damping or decreased amplitude is governed by β :
4
1 1characteristic length [m]
4
k
EI
β=
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Example
Hans Welleman 26
( ) ( )1 2 3 4( ) cos sin cos sinx x
hw x e C x C x e C x C xβ ββ β β β−= + + +
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Symmetry
Hans Welleman 27
( )3 4( ) cos sinxw x e C x C xβ β β−= +
only two BC:
(0) 0; (0) ;V Fϕ = = −
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Assignment
Solve the example in MAPLE
Use
Find the distributions for
– Displacement
– Rotation
– Moment
– Shear
Hans Welleman 28
414
; 1000 4 ; 10EI Fβ π β= = × =
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… one last trick …
Hans Welleman 29
( )3 4( ) cos sinxw x e C x C xβ β β−= +
( )( ) sin cos cos sinxw x A e x xβ ω β ω β−= +
ω
A
4 cosC A ω=
3 sinC A ω=
( )( ) sin cos cos sinxw x e A x A x
β ω β ω β−= +
( )( ) sinxw x Ae xβ β ω−= +( )
math:
sin sin cos cos sina b a b a b+ = +
new integration constants
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Why??
Hans Welleman 30
( ) ( )
( ) ( )( )
( ) ( )( )1 14 4
dsin cos
d
sin cos
2 sin cos cos sin
x x
x
x
wAe x Ae x
x
Ae x x
Ae x x
β β
β
β
β β ω β β ω
β β ω β ω
β β ω π β ω π
− −
−
−
= − + + + =
= − + − +
= − + − +
( )
math:
sin sin cos cos sina b a b a b− = −
( )14
d2 sin
d
xwAe x
x
ββ β ω π−= − + −
( )( ) sinxw x Ae xβ β ω−= +
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Differentiating becomes
Change sign
Multiply with
Reduce phase with
Hans Welleman 31
2β14
π
( )
( )
( )
( )
14
22 1
22
33 3
43
sin
d2 sin
d
d2 sin
d
d2 2 sin
d
x
x
x
x
w Ae x
wAe x
x
wAe x
x
wAe x
x
β
β
β
β
β ω
β β ω π
β β ω π
β β ω π
−
−
−
−
= +
= − + −
= + −
= − + −“old school”
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Study the graphs
…and the notes …
Hans Welleman 32
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Classification of beams according
to stiffness ... loadcase 1
Hans Welleman 33
( ) ?w x =
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Classification
Wave length of the load
Wave length λ of the beam (no load)
Hans Welleman 34
2l
( )
( )
1 2
3 4
( ) cos sin
cos sin
x
x
w x e C x C x
e C x C x
α
α
β β
β β
−= + +
+
22
πβλ π λ
β= → =
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Simplified model
Hans Welleman 35
, 0 , 0
( ) ? ( )
( ) ?bending k bending k
w x w xfind
w x w= =
=
=
, 0 , 0
( ) ? ( )
( ) ?cont reaction EI cont reaction EI
w x w xfind
w x w− = − =
=
=
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Influence of k , EI and l
Hans Welleman 36
Find the meaning of this result by studying the extreme values of the
parameters … (also see the assignments in de notes)
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Influence of k , EI and l
Hans Welleman 37
Find the meaning of this result by studying the extreme values of the
parameters … (also see the assignments in de notes)
![Page 38: Slender Structures Load carrying principlesicozct.tudelft.nl/TUD_CT/CM5/collegestof/files/... · Hans Welleman 1 Slender Structures Load carrying principles Continuously Elastic Supported](https://reader034.vdocuments.net/reader034/viewer/2022042612/5f3ddb734b00d34a15410dad/html5/thumbnails/38.jpg)
Classification of beams according
to stiffness ... loadcase 2
Also known as Hetényi problemDr. Miklos Hetényi, University of Technical Sciences, Budapest, Hungary, 1924-30; Diploma in Civil Engineering, 1931; Graduate work with H.M. Westerguard, Univ. of Illinois, 1934-35 and with S.P. Timoshenko, Univ. of Michigan, 1935-36; PhD in Eng. Mechanics, 1936
Hans Welleman 38
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Model based
on symmetry
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( ) ( )
4
4
1 2 3 4
12
d0
d
( ) cos sin cos sin
0; ; 0;
; 0; 0;
x x
wEI kw
x
w x e C x C x e C x C x
x V F
x l V M
β ββ β β β
ϕ
−
+ =
= + + +
= = − =
= = =
Ok, just solve this ……
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Stiffness of slabs
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lβ
12
( )
(0)
w l
w
4
π π
short beams, can be regarded as rigid, neglect bending4
need accurate computations, load on one side has effect on the other end4
long beams, acting force at one end has negligible effect
l
l
l
πβ
πβ π
β π
≤
≤ ≤
≥ on other end
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Assignment
Find min and max stress in the continuous support
Find the maximum normal stress in the beam
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rail (beam)
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Assignment
Building phases
– A original situation
– B add supports A and B with full load prior to excavation
– C excavate AB under full load
Derive a model and find the moment at B in the beam
Find the moment and shear distribution in terms of qo and l
Find the support reactions at A and B
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4
:
324
assume
kl
EI=
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Advanced models:Winkler - Pasternak model
Add shear deformation in the elastic support to create horizontallinkage between the vertical Winkler springs. Stiffnessparameters ks and k will model the elastic support (so-called 2-
parameter model)
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4 2
4 2
d d
d d
!
s
w wEI k k w q
x x
proof this
− + × =