Download - CEN321-02T
-
Consistent Deformation Method 1
2 (Consistent Deformation)
(Force Method)
Consistent Deformation Method 2
) (SI)) (Base Structure)
(Indeterminate) 1 (Determinate)
2 (Determinate)
Consistent Deformation
1Re1
Re1 1
-
Consistent Deformation Method 3
) FBD
+ ( = SI)
) . (Constrain) ()
)
Consistent Deformation Method 4
) SI = 2
) Base Structure
) 2
A B C
A B CRe1 Re2
A B C1 2
1 = 0 2 = 0
-
Consistent Deformation Method 5
1 = 0 --------------------------------------------- 1 =F1 + 11Re1+ 12Re2 = 0
2 = 0 --------------------------------------------- 2 =F2 + 21Re1+ 22Re2 = 0
A B CF2F1
AB CRe1
11Re1 21Re1
AB C Re2
12Re2 22Re2
) (Superposition) 1 , 2 = 0
F1 , F2
111Re1 , 21Re1
212Re2 , 22Re2
Consistent Deformation Method 6
A B CRe1 Re2R1
R2
R3 - - )
SI = 3 1 =F1 +11Re1+12Re2 +13Re3 = 0 Re1 , Re2 , Re3 2 =F2 +21Re1+22Re2 +23Re3 = 0
3 =F3 +31Re1+32Re2 +33Re3 = 0
(SI = N)1=F1 + 11Re1+ 12Re2 + + 1NReN = 0
2=F2+ 21Re1+ 22Re2 + + 2NReN = 0Re1 , Re2 , ....,ReN
N =FN + N1Re1+ N2Re2 + + NNReN = 0
-
Consistent Deformation Method 7
.. 1 ()
Consistent Deformation A B
50 kNA B
C8 m 4 mI 3I
15 kN /m
SI = 1
Consistent Deformation Method 8
1. SI = 12. Base Structure
Redundant = Ry, B Constrain vB= 0
Deflection B = 03. Constrain
Superposition 2
Deflection B = vB
Deflection B = vB
vB = vB + vB = 0
50 kNA B
C8 m 4 mI 3IR y,B
Base Structure
15 kN /m
50 kNA B C
vB
15 kN /m
AB CvB
Ry, B
-
Consistent Deformation Method 9
vB vB ( Virtual Work)
A B C1
1 vB vB
A B C
-600
-480
-
-
Pt.Load
Uniform Load
(M1)
A B C
8 Ry,B+
Ry, B (M2)
A B C
8
+
1 (m)
Consistent Deformation Method 10
Constrain Ry,B = 132.5 kN. A Ry,A = 37.5 kN. , R x,A = 0 kN.
MA = -20 kN.-m.
[ ]0MEI31
883
480831
60012
4832
8821
EI1
dxEI
mMv 1
1B +
+=
= )('
EI384067
vB,' =
ByBy2
B REI3512
832
8R821
EI1
dxEI
mMv ,,'' =
=
=
0REI3
512EI384067
vvv ByBB =+
=+= ,''' ,
-
Consistent Deformation Method 11
.. 2 ()
Consistent Deformation A B ( E I )
A B C
8 m4 m
10 kN /m
SI = 1
Z (Redundant)
A B C10 kN /m
Base Structure
Consistent Deformation Method 12
1) SI = 12) Base Structure Redundant = ZA= 0 Deflection A = 03)
- A = A- AB M1=0,- CB M1= 40.x2-10.x22/24) Redundant Force
- A = A- AB M2= Z.x1 ,- CB M2= 0.5.Z.x2
B CA
1
x1 x2
m
M1
10 kN./m.B CA
A
M2
B CAZ
x1 x2
A
-
Consistent Deformation Method 13
Virtual Work A- AB m = 1.x1 ,- CB m = 0.5.x2
5) Constrain Z = -13.3 kN.6) AB MB
MB = -53.3 kN.-m.
EI3853dxEIx502x10x40dxEImM 28
0
2221A /.)]/().()/[(]/[
' ===
+==4
0
8
022112A dxEIx50Zx50dxEIx1xZdxEImM ]/).().[(]/)()[(]/[
''
EIZ64 /=
0AAA =+= '''
BAVBZ
MB
Consistent Deformation Method 14
EX. Consistent Deformation 1.) A 2.) SBD. BMD. ( EI )
50 kN.A DC
6 m. 3 m.
B E100 kN.
6 m. 3 m.
SI = 2
Base Structure
50 kN.A DCB E
100 kN.
X1 X2
-
Consistent Deformation Method 15
1) SI = 22) Base Structure B ,D = X1 X23) - B B = 0- D D = 04)
B D 5) X1 11 . X1 21 . X1X2 12 . X2 22 . X2
50 kN.A DCB E
100 kN.
B
D
A DCB
E
1 X1
1121
A DCB
E
1 X2
1222
Consistent Deformation Method 16
6) Virtual Work ( (M) , 1 B (m1) 1 C (m2))
M
m1 1 B
m2 1 D
BA C D E
-1,800 -900-450 -150
0
60
159 6 0
-
Consistent Deformation Method 17
6.1) B D (B D)
6.2) B D X1(11 21 )
6.3) B D X2(12 22 )
== dxEIL
mMdxEIL
mM 2D1B'' .....................
== dxEIL
mmdxEIL
mm 12211111 .....................
== dxEIL
mmdxEIL
mm 22222112 .....................
Consistent Deformation Method 18
7) 6 6.1 , 6.2 6.3 B = -27,000 / EI D= -121,725 / EI11 = 72 / EI 21 = 234 / EI12 = 234 / EI 22 = 1,125 / EI
8) B D = 0
0EIX1251EIX234EI7251210XX
0EIX234EIX72EI000270XX
21
222121DD
21
212111BB
=++=++=
=++=++=
/,//,..................
///,..................
'
'
-
Consistent Deformation Method 19
9) 8 X1 X2
X1 = 72.1 kN. X2 = 93.2 kN.
10)
VA = -15.3 kN. MA = 30.6 kN.-m. 1
Consistent Deformation Method 20
11) SFD. BMD.
SFD.(kN.)
BMD.(kN.-m.)
2
A B C D E
15.3 43.2
50.056.8
30.6109.3
61.1150
+ +-
+
-
--+
-
Consistent Deformation Method 21
EX. Consistent Deformation 1.) 2.) FBD. BMD. ( EI )
10 kN./m.30 kN.
A
B C
10 m.
8 m.
SI = 1
Consistent Deformation Method 22
1) SI = 1 - (Redundant) 1 - 1
2) Base Structure A C
3) 2
3.1) ( C X1)
3.2) (vC= 0 Deflection C = 0)
10 kN./m.30 kN.
A
B C
X1
Base Structure
-
Consistent Deformation Method 23
1 X1
4) C 4.1) vC4.2) 11 . X1 11 C X1
10 kN./m.30 kN.
A
B C vC
A
BC
1
11
Consistent Deformation Method 24
5) vC 11 Virtual Work ( (M) 1 C (m))
A
B C
A
B C
B C
A620
320
320
A
B C
8
8
M m
- +
+-
-
Consistent Deformation Method 25
= dxEI
mMvC'
= dx
EImm
11
5.1) C (vC)
5.2) C X1 (11)
AB BC A B B C
M (kN.-m.) -620 -320 -320 0M (kN.-m.) 8 8 8 0Integrate (M . m) -37,600.0 -5,120.0 -42,720.0 /EIIntegrate (m . m) 640.0 170.7 810.7 /EI
X = 52.7 kN.
Consistent Deformation Method 26
6) C = 0
vC 11 (X1) 52.7 kN.
7. HA = -30.0 kN.VA = 27.3 kN.MA = 198.4 kN-m.
0Xvv 111CC =+='
=== 0M0F0F yX ,,10 kN./m.
30 kN.
A
B C
52.7 kN.
HAVA
MA
-
Consistent Deformation Method 27
8) () SFD. BMD.
B B
A A
CC
27.3
30.0 52.7
101.6101.6 138.9
198.4
SFD. (kN.) BMD. (kN.-m.)
++
+-
-+
Consistent Deformation Method 28
2.3 Consistent Deformations (Truss)
Indeterminate Truss 3 1. Redundant Forces 2. Redundant Forces (Truss)3. Redundant Forces 2
1
-
Consistent Deformation Method 29
2 Truss 2
- Condition Redundant Forces (1 ) 0
P1 P2
P1 P2
X 1X 1
1= 0
Consistent Deformation Method 30
EX. Consistent Deformation (EA / L = 30,000 k / ft.)
24 ft.64 k
a
B C D
bc
d e
24 ft. 24 ft. 24 ft.
32 ft.
SI = 1
-
Consistent Deformation Method 31
1) SI = 1 ( c)
2) Primary Structure Redundant Forces
3) c (1)- 64 k
4) c (11)- 1 X1
B C D
24 ft.64 k
a
B C D
b c d e
24 ft. 24 ft. 24 ft.
32 ft.
X1
Primary Structure
64 ka b c d e
1
1
a
B C D
b c d e
11
== nNAEL
nAENL
1 1'
== AELN
nAENL
12
11
Consistent Deformation Method 32
N n N.n n2(k) (k) (k2 ) (k2 )
ab 36 0.375 13.5 0.140625bc 36 0.375 13.5 0.140625cd 12 0.375 4.5 0.140625de 12 0.375 4.5 0.140625BC -24 -0.75 18.0 0.5625CD -24 -0.75 18.0 0.5625aB -60 -0.625 37.5 0.390625Bb 64 0 0 0Bc -20 0.625 -12.5 0.390625Cc 0 0 0 0cD 20 0.625 12.5 0.390625Dd 0 0 0 0De -20 -0.625 12.5 0.390625
122 3.25
5) Condition c
6)
(64 k) (X1) Primary Structure
= N + n . X1 ()
0XL
AE253
LAE
122
X0
1
11111
=+
+==
.
...........'
...
kN5437253122
X1 =
=
-
Consistent Deformation Method 33
EX. Consistent Deformation (EA / L = 30,000 k / ft.)
24 ft.64 k
a
B C D
bc
d e
24 ft. 24 ft. 24 ft.
32 ft.
SI = 2
Consistent Deformation Method 34
1) SI = 2 ( e Cd)
2) Primary Structure Redundant Forces
3) e (1) Cd (2)
- 64 k Primary Structure
24 ft.64 ka
B C D
bc
de
24 ft. 24 ft. 24 ft.
32 ft. X1
X2
Primary Structure
==
==
222
111
nNAEL
nAENL
1
nNAEL
nAENL
1
'
'
64 ka
B C D
bc
de
1
2
N
-
Consistent Deformation Method 35
4) e (11) Cd (21) 1 X1
5) e (12) Cd (22) 1 X2
=
=
=
=
)(
)(
2121
21
211
111
nnAEL
nAE
Ln1
nAEL
nAE
Ln1
=
=
=
=
)(
)(
222
222
2112
12
nAEL
nAE
Ln1
nnAEL
nAE
Ln1
n1
a
B C D
bc
de
11
1 X1
21
n2
a
B C D
bc
de
12
1 X2
22
Consistent Deformation Method 36
N n1 n2 N.n1 N.n2 n12 n1.n2 n22(k) (k) (k) (k2) (k2) (k2) (k2) (k2)
ab 36 1 0 36 0 1 0 0bc 36 1 0 36 0 1 0 0cd 12 1 -0.6 12 -7.2 1 -0.6 0.36de 12 1 0 12 0 1 0 0BC -24 0 0 0 0 0 0 0CD -24 0 -0.6 0 14.4 0 0 0.36aB -60 0 0 0 0 0 0 0Bb 64 0 0 0 0 0 0 0Bb -20 0 0 0 0 0 0 0 Cc 0 0 -0.8 0 0 0 0 0.64cd 0 0 1.0 0 0 0 0 1cD 20 0 1.0 0 20 0 0 1Dd 0 0 -0.8 0 0 0 0 0.64De -20 0 0 0 0 0 0 0
1 = 96 2 = 27.2 11 = 4 12 = 21 -0.6 22 = 4 x L/AE
-
Consistent Deformation Method 37
6) Condition - e ; 1 = 0- Cd ; 2 = 0
Fi = N + n1X1 + n2X2
+
=
=
2
1
2
1
2221
1211
2
1
XX
00
'
'
=
+
00
XX
460604
AEL
22796
AEL
2
1
..
.
=
=
kk
64106025
227096
460604
XX 1
2
1
.
...
..
Consistent Deformation Method 38
EX. Consistent Deformation ( EA / L = 30,000 k / ft. , = 6.510-6 in / in /1F)
24 ft.
a
B C D
b c d e
24 ft. 24 ft. 24 ft.
32 ft.
2 50 F
SI = 1
-
Consistent Deformation Method 39
1) SI = 1 ( Cd)
2) Primary Structure Redundant Forces
3) Cd (1) BC CD
= )(' Ltn1 11
24 ft.
a
B C D
bc
de
24 ft. 24 ft. 24 ft.
32 ft.X1
Primary Structure
a
B C D
bc
de
1
tL
Consistent Deformation Method 40
4) Cd (11) 1 X1 Primary Structure
== )( 211111 nAEL
nAE
Ln1
n1
a
B C D
bc
de
1 X1
11
-
Consistent Deformation Method 41
5) Condition Cd
6)
(64 k) (X1) Primary Structure
= N + n . X1 ()
0X4AEL
004680
X0
1
11111
=
+
+==
.
........'
kips135L
AE4
004680X1 .
.==
L tL n1 (n1)tL n2(ft.) (ft.) (k) (k2 ) (k2)
ab 24 0 0 0 0bc 24 0 0 0 0cd 24 0 -0.6 0 0.36de 24 0 0 0 0bc 24 0.0078 0 0 0CD 24 0.0078 -0.6 -0.00468 0.36aB 40 0 0 0 0Bb 32 0 0 0 0Bc 40 0 0 0 0Cc 32 0 -0.6 0 0.36Cd 40 0 1.0 0 1.0cD 40 0 1.0 0 1.0Dd 32 0 -0.8 0 0.64De 40 0 0 0 0
-0.00468 4.0
Consistent Deformation Method 42
EX. Consistent Deformation
4 m.
100 kN.A B C
D
E4 m.
3 m.
1 m.
SI = 2
-
Consistent Deformation Method 43
1) SI = 2 - (Redundant) 2 - 2
2) Primary Structure Redundant Forces
3) Primary Structure 2
3.1) ()- C X1- CE X2
4 m.
100 kN.A B C
D
E4 m.
3 m.
1 m.
Primary Structure
X1
X2
100 kN.A B C
D
E
uCE
uC
Consistent Deformation Method 44
3.1) - C
(uC = 0 )- CE (CE = 0 )
4) 3.1 3.2 4.1) C (1)
- 100 kN (uC )
- X1 11 . X1- X2 12 . X2
A B C
D
E 1 X1
11
21
1
A B C
D
E 1 X2
12
221
-
Consistent Deformation Method 45
4.2) CE- 100 kN. (BC )- X1 21 . X1- X2 22 . X2
5) uC , BC , 11 , 12 , 21 22 () (N ) 1 C (n1 ) 1 CE (n2 )
Consistent Deformation Method 46
L L/EA N n1 n2 Nn1L/EA Nn2L/EA n1n1L/EA n1n2L/EA n2n2L/EA F
AB 4 4/AE -66.67 1 0.24 -266.7/AE -62.9/AE 4/AE 0.9/AE 0.2/AE 0BC 4 4/AE -66.67 1 0.24 -266.7/AE -62.9/AE 4/AE 0.9/AE 0.2/AE 0AD 5 5/AE 83.33 0 -1.18 0 -491/AE 0 0 6.9/AE 40.79CD 5 5/AE 83.33 0 -1.18 0 -491/AE 0 0 6.9/AE 40.79AE 5.66 5.66/AE 0 0 1 0 0 0 0 5.7/AE 36.10CE 5.66 5.66/AE 0 0 1 0 0 0 0 5.7/AE 36.10BD 3 3/AE -100.0 0 0 0 0 0 0 0 -100DE 1 1/AE 0 0 -1.41 0 0 0 0 2.0/AE -51.06
-533.3/AE -1107.8/AE 8/AE 1.9/AE 26.7/AE
-
Consistent Deformation Method 47
5.1) C CE (uC BC )
5.2) C CE 1 (11 , 12 , 21 22 )
AELnn
AE
LnnAE
Lnn 2222
212112
1111
=
==
= ...,
AELnN
AE
LnNu 2BC
1C
=
= '' ...
Consistent Deformation Method 48
6) C CE 0
7)
- A = -58.16 kN.- A = 50.00 kN.- C = 50.00 kN.
0XX0XXuu 222121BCBC212111CC =++==++='' ........
................ kN1036XkN1658X 21 ==
-
Consistent Deformation Method 49
8) (F )
(N ), X1 (n1 ) X2 (n2)
2211 XnXnNF ++=
