425-Serviceability-Chp-6-S11.ppt
-
Upload
aomareltayeb -
Category
Documents
-
view
10 -
download
0
description
Transcript of 425-Serviceability-Chp-6-S11.ppt
![Page 1: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/1.jpg)
Chp-6:Lecture GoalsChp-6:Lecture Goals
• Serviceability
• Deflection calculation
• Deflection example
![Page 2: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/2.jpg)
• Structural Design Profession is concerned with:
Limit States Philosophy:
Strength Limit State
(safety-fracture, fatigue, overturning buckling etc.-)
Serviceability
Performance of structures under normal service load and are concerned the uses and/or occupancy of structures
![Page 3: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/3.jpg)
;
![Page 4: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/4.jpg)
![Page 5: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/5.jpg)
![Page 6: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/6.jpg)
λ:Time dependent Factor
:Amplification factor
ζ
![Page 7: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/7.jpg)
![Page 8: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/8.jpg)
![Page 9: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/9.jpg)
Solution:
![Page 10: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/10.jpg)
See Example 2.2
Ma: Max. ServiceLoad Moment
![Page 11: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/11.jpg)
![Page 12: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/12.jpg)
![Page 13: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/13.jpg)
![Page 14: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/14.jpg)
![Page 15: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/15.jpg)
![Page 16: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/16.jpg)
![Page 17: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/17.jpg)
![Page 18: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/18.jpg)
![Page 19: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/19.jpg)
![Page 20: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/20.jpg)
Reinforced Concrete Sections - ExampleReinforced Concrete Sections - Example
Given a doubly reinforced beam with h = 24 in, b = 12 in., d’ = 2.5 in. and d = 21.5 in. with 2# 7 bars in compression steel and 4 # 7 bars in tension steel. The material properties are fc = 4 ksi and fy= 60 ksi.
Determine Igt, Icr , Mcr(+), Mcr(-), and compare to the NA of the beam.
![Page 21: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/21.jpg)
Reinforced Concrete Sections - ExampleReinforced Concrete Sections - Example
The components of the beam
2 2s
2 2s
c c
2 0.6 in 1.2 in
4 0.6 in 2.4 in
1 k57000 57000 4000
1000 lb
3605 ksi
A
A
E f
![Page 22: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/22.jpg)
Reinforced Concrete Sections - Example Reinforced Concrete Sections - Example
The compute the n value and the centroid, I uncracked
n area (in2) n*area (in2) yi (in) yi *n*area (in2) I (in4) d (in) d2*n*area(in4)
A's 7.04 1.2 8.448 2.5 21.12 - -9.756 804.10
As 7.04 2.4 16.896 21.5 363.26 - 9.244 1443.75
Ac 1 288 288 12 3456.00 13824 -0.256 18.89
313.344 3840.38 13824 2266.74
s
c
29000 ksi8.04
3605 ksi
En
E
![Page 23: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/23.jpg)
Reinforced Concrete Sections - ExampleReinforced Concrete Sections - Example
The compute the centroid and I uncracked
3i i i
2i i
2 4 4i i i i
4
3840.38 in12.26 in.
313.34 in
I 13824 in 2266.7 in
16090.7 in
y n Ay
n A
I d n A
![Page 24: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/24.jpg)
Reinforced Concrete Sections - Example Reinforced Concrete Sections - Example
The compute the centroid and I for a cracked doubly reinforced beam.
0
212212 ssss2
b
dnAAny
b
nAAny
2 2
2
2 2
s
2
2 7.04 1.2 in 2 8.04 2.4 in
12 in.
2 7.04 1.2 in 2 8.04 2.4 in 21.5 in.0
12 in.
4.624 72.664 0
y y
y y
![Page 25: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/25.jpg)
Reinforced Concrete Sections - ExampleReinforced Concrete Sections - Example
The compute the centroid for a cracked doubly reinforced beam.
2 4.624 72.664 0y y
24.624 4.624 4 72.664
26.52 in.
y
![Page 26: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/26.jpg)
Reinforced Concrete Sections - Example Reinforced Concrete Sections - Example The compute the moment of inertia for a cracked doubly reinforced beam.
2s
2s
3cr 1
3
1ydnAdyAnybI
3
cr
22
22
4
112 in. 6.52 in.
3
7.04 1.2 in 6.52 in. 2.5 in.
8.04 2.4 in 21.5 in. 6.52 in.
5575.22 in
I
![Page 27: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/27.jpg)
Reinforced Concrete Sections - Example Reinforced Concrete Sections - Example The critical ratio of moment of inertia
4cr
4g
cr g
5575.22 in0.346
16090.7 in
0.35
I
I
I I
![Page 28: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/28.jpg)
Reinforced Concrete Sections - ExampleReinforced Concrete Sections - ExampleFind the components of the beam
c c
s
s s s
2s s s c
0.85 0.85 4 ksi 12 in. 0.85 34.68
2.5 in. 0.00750.003 0.003
0.0075 217.529000 0.003 87
217.50.85 1.2 in 87
261100.32
C f ba c c
c
c c
f Ec c
C A f fc
c
![Page 29: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/29.jpg)
Reinforced Concrete Sections - ExampleReinforced Concrete Sections - Example
Find the components of the beam
2
c s
2
2
2.4 in 60 ksi 144 k
261144 k 34.68 100.32 34.68 43.68 261 0
43.68 43.68 4 261 34.68
2 34.68
3.44 in.
T
T C C
c c cc
c
The neutral axis
![Page 30: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/30.jpg)
Reinforced Concrete Sections - ExampleReinforced Concrete Sections - Example
The strain of the steel
Note: At service loads, beams are assumed to act elastically.
s
s
3.44 in. 2.5 in.0.003 0.0008 0.00207
3.44 in.
21.5 in. 3.44 in.0.003 0.0158 0.00207
3.44 in.
3.44 in.
y 6.52 in.
c
![Page 31: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/31.jpg)
Reinforced Concrete Sections - ExampleReinforced Concrete Sections - Example
Using a linearly varying and = E along the NA is the centroid of the area for an elastic center
The maximum tension stress in tension is
r c7.5 7.5 4000
474.3 psi 0.4743 ksi
f f
My
I
![Page 32: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/32.jpg)
Reinforced Concrete Sections - ExampleReinforced Concrete Sections - Example
The uncracked moments for the beam
4
rcr
4
rcr
0.4743 ksi 16090.7 in650.2 k-in.
24 in. 12.26 in.
0.4743 ksi 16090.7 in622.6 k-in.
12.26 in.
My IM
I y
f IM
y
f IM
y
![Page 33: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/33.jpg)
Calculate the DeflectionsCalculate the Deflections
(1) Instantaneous (immediate) deflections
(2) Sustained load deflection
Instantaneous Deflections
due to dead loads( unfactored) , live, etc.
![Page 34: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/34.jpg)
Calculate the DeflectionsCalculate the DeflectionsInstantaneous Deflections
Equations for calculating inst for common cases
![Page 35: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/35.jpg)
Calculate the DeflectionsCalculate the DeflectionsInstantaneous Deflections
Equations for calculating inst for common cases
![Page 36: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/36.jpg)
Calculate the DeflectionsCalculate the DeflectionsInstantaneous Deflections
Equations for calculating inst for common cases
![Page 37: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/37.jpg)
Calculate the DeflectionsCalculate the DeflectionsInstantaneous Deflections
Equations for calculating inst for common cases
![Page 38: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/38.jpg)
Sustained Load DeflectionsSustained Load Deflections
Creep causes an increase in concrete strain
Curvature increases
Compression steel present
Increase in compressive strains cause increase in stress in compression reinforcement (reduces creep strain in concrete)
Helps limit this effect.
![Page 39: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/39.jpg)
Sustained Load DeflectionsSustained Load Deflections
Sustain load deflection = i
Instantaneous deflection
501 ACI 9.5.2.5
bd
As at midspan for simple and continuous beams
at support for cantilever beams
![Page 40: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/40.jpg)
Sustained Load DeflectionsSustained Load Deflections
= time dependent factor for sustained load
5 years or more 12 months 6 months 3 months
1.4 1.2 1.0
2.0
Also see Figure 9.5.2.5 from ACI code
![Page 41: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/41.jpg)
Sustained Load DeflectionsSustained Load Deflections
For dead and live loads
total DL inst LL inst
DL L.T. LL L.T.
DL and LL may have different factors for LT ( long term ) calculations
instDLtotal
components N/S
of attachmentafter total
![Page 42: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/42.jpg)
Sustained Load DeflectionsSustained Load Deflections
The appropriate value of Ic must be used to calculate at each load stage.
instDLinstLL
instDL
Some percentage of DL (if given)
Full DL and LL
![Page 43: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/43.jpg)
Serviceability Load Deflections - Serviceability Load Deflections - ExampleExample
Show in the attached figure is a typical interior span of a floor beam spanning between the girders at locations A and C. Partition walls, which may be damaged by large deflections, are to be erected at this level. The interior beam shown in the attached figure will support one of these partition walls. The weight of the wall is included in the uniform dead load provided in the figure. Assume that 15 % of the distributed dead load is due to a superimposed dead load, which is applied to the beam after the partition wall is in place. Also assume that 40 % of the live load will be sustained for at least 6 months.
![Page 44: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/44.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
fc = 5 ksi
fy = 60 ksi
![Page 45: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/45.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Part IDetermine whether the floor beam meets the ACI Code maximum permissible deflection criteria. (Note: it will be assumed that it is acceptable to consider the effective moments of inertia at location A and B when computing the average effective moment of inertia for the span in this example.)
Part IICheck the ACI Code crack width provisions at midspan of the beam.
![Page 46: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/46.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Deflection before glass partition is installed (85 % of DL)
e
w
35ft 12 in/ft105 in
4 48t 2 8 4.5 in 2 12 in = 84 in
s = 10 ft = 120 in.
lb
b
![Page 47: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/47.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Compute the centroid and gross moment of inertia, Ig.
b h Area yi A i * yiF lange 84 4.5 378 17.75 6709.5W eb 15.5 12 186 7.75 1441.5
564 8151
![Page 48: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/48.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
The moment of inertia3
2
8151 in14.45 in 14.5 in
564 ini i
i
y Ay
A
3 2g
3 22
3 22
4 4
1
12
184 in 4.5 in 378 in 17.75 in - 14.45 in
121
12 in 15.5 in 186 in 7.75 in - 14.45 in12
16,950 in 16900 in
I bh Ad
![Page 49: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/49.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
The moment capacity
r c
c c
4r g
cr -t -
4r g
cr +t +
7.5 7.5 5000 530 psi
E 57000 57000 5000 /1000 lbs=4030 ksi
530 psi 16900 inM 1610 k-in
y 5.55 in 1000 lbs/kip
530 psi 16900 inM 618 k-in
y 14.5 in 1000 lbs/kip
f f
f
f I
f I
![Page 50: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/50.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Determine bending moments due to initial load (0.85 DL) The ACI moment coefficients will be used to calculate the bending moments Since the loading is not patterned in this case, This is slightly conservative
![Page 51: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/51.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
The moments at the two locations
2
A D n
2
2
B D n
2
0.85 /11
0.85*1.00k/ft* 33.67 ft /11
87.6 k-ft 1050 k-in
0.85 /16
0.85*1.00k/ft* 33.67 ft /16
60.2 k-ft 723 k-in
M w l
M w l
![Page 52: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/52.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Moment at C will be set equal to Ma for simplicity, as given in the problem statement.
A cr -
g
B cr +
cr
1050 k-in <M
1610 k-in Use I @ supports
723 k-in>M
618 k-in Use I @ midspan
M
M
![Page 53: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/53.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - ExampleAssume Rectangular Section Behavior and calculate the areas of steel and ratio of Modulus of Elasticity
s
c
2 2s
2 2s
29000 ksi7.2
4030 ksi
3#5 3 0.31 in 0.93 in
4 #7 4 0.6 in 2.40 in
En
E
A
A
![Page 54: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/54.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - ExampleCalculate the center of the T-beam
s s s s2
2 2
2
2 2
2
2 1 2 2 1 20
2 6.2 0.93 in 2 7.2 2.4 in
84 in.
2 6.2 0.93 in 2.5 in. 2 7.2 2.4 in 17.5 in.0
84 in.
0.549 7.54 0
0.549 30.472.49 in.
2
n A nA n A d nA dy y
b b
y y
y y
y
![Page 55: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/55.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
The centroid is located at the A’s < 4.5 in. = tf Use rectangular section behavior
2 23s scr +
3
22
22
4
11
31
84 in 2.49 in3
6.2 0.93 in 2.5 in 2.49 in
7.2 2.4 in 17.5 in 2.49 in
4330 in
I by n A y d nA d y
![Page 56: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/56.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
The moment of inertia at midspan
3 3
cr crg cre midspan
a a
34
34
4
1
618 k-in16900 in
723 k-in
618 k-in1 4330 in
723 k-in
12200 in
M MI I I
M M
![Page 57: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/57.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Calculate average effective moment of inertia, Ie(avg) for interior span (for 0.85 DL) For beam with two ends continuous and use Ig for the two ends.
e1 e2e avg e mid
4
4 4
4
0.7 0.15
0.7 12200 in
0.15 16900 in 16900 in
13600 in
I I I I
![Page 58: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/58.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Calculate instantaneous deflection due to 0.85 DL:Use the deflection equation for a fixed-fixed beam but use the span length from the centerline support to centerline support to reasonably approximate the actual deflection.
4 34
DL inst 4
0.85 1.00 k/ft 35 ft 12 in/ft
384 384 4030 ksi 13600 in
0.105 inches
l
EI
![Page 59: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/59.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Calculate additional short-term Deflections (full DL & LL)
22D L n
A
22D L n
B
1.62 k/ft 33.67 ft
11 11167 k-ft 2000 k-in
1.62 k/ft 33.67 ft
16 16115 k-ft 1380 k-in
lM
lM
![Page 60: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/60.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Calculate additional short-term Deflections (full DL & LL)
Let Mc = Ma = - 2000 k-in for simplicity see problem statement
c A cr -
B cr +
2000 k-in 1610 k-in
cracking at supports
1380 k-in 618 k-in
cracking at midspan
M M M
M M
![Page 61: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/61.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Assume beam is fully cracked under full DL + LL, therefore I= Icr (do not calculate Ie for now).
Icr for supports
2 2s
2
2 2s
7.20
2 4 0.20 in 3 0.6 in
3.40 in
20 in - 2.5 in = 17.5 in
3 0.6 in 1.80 in
2.5 in
n
A
d
A
d
![Page 62: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/62.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Class formula using doubly reinforced rectangular section behavior.
s s s s2
2 2
2
2 2
2 1 2 2 1 20
2 6.2 1.80 in 2 7.2 3.4 in
12 in
2 6.2 1.80 in 2.5 in 2 7.2 3.4 in 17.5 in0
12 in
n A nA n A d nA dy y
b b
y y
![Page 63: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/63.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Class formula using doubly reinforced rectangular section behavior.
s s s s2
2
2 1 2 2 1 20
5.94 76.05 0
5.94 3406.25 in.
2
n A nA n A d nA dy y
b b
y y
y
![Page 64: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/64.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Calculate moment of inertia.
2 23s scr +
3
22
22
4
11
31
12 in 6.25 in3
6.2 1.80 in 2.5 in 6.25 in
7.2 3.4 in 17.5 in 6.25 in
4230 in
I by n A y d nA d y
![Page 65: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/65.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Weighted Icr
cr cr1 cr2cr mid
4 4 4
4
0.7 0.15
0.7 4330 in 0.15 4230 in 4230 in
4300 in
I I I I
![Page 66: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/66.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Instantaneous Dead and Live Load Deflection.
4 34D
DL inst 4
LL inst DL inst
1.00 k/ft 35 ft 12 in/ft
384 384 4030 ksi 4300 in
0.390 inches
0.62 k/ft*
1.00 k/ft0.242 inches
l
EI
![Page 67: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/67.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Long term Deflection at the midspan
Dead Load (Duration > 5 years)
2
s
w
3 0.31 in0.00221
2 2 12 in 17.5 in
A tt
b d
DLDL L.T. DL inst
2.01.80
1 50 1 50 0.00221
1.8 0.390 in 0.702 in
![Page 68: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/68.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Long term Deflection use the midspan information
Live Load (40 % sustained 6 months)
2
s
w
3 0.31 in0.00221
2 2 12 in 17.5 in
A tt
b d
LLLL L.T. LL inst
1.21.08
1 50 1 50 0.00221
1.08 0.242 in 0.40
0.105 in
![Page 69: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/69.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Total Deflection after Installation of Glass Partition Wall.
total DL inst LL inst DL L.T. LL L.T.
after attachment total DL inst
permissible
0.390 in 0.242 in 0.702 in 0.105 in
= 1.44 in
1.44 in 0.105 in 1.33 in
48035 ft 12 in/ft
0.875 in < 1.33 in NO GOO480
l
D!
![Page 70: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/70.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Check whether modifying Icr to Ie will give an acceptable deflection:
3 3
cr crg cre midspan
a a
34
34
4
1
618 k-in16900 in
1380 k-in
618 k-in1 4330 in
1380 k-in
5460 in
M MI I I
M M
![Page 71: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/71.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - Example
Check whether modifying Icr to Ie will give an acceptable deflection:
34
e support
34
4
1610 k-in16900 in
2000 k-in
1610 k-in1 4230 in
2000 k-in
10800 in
I
e1 e2e avg e mid
4 4 4
4
0.7 0.15
0.7 5460 in 0.15 10800 in 10800 in
7060 in
I I I I
![Page 72: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/72.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - ExampleFloor Beam meets the ACI Code Maximum permissible Deflection Criteria. Adjust deflections:
4
DL inst 4
4
LL inst 4
4
DL L.T. 4
4
LL L.T. 4
4300 in0.390 in 0.238 in
7060 in
4300 in0.242 in 0.147 in
7060 in
4300 in0.702 in 0.428 in
7060 in
4300 in0.105 in 0.064 in
7060 in
![Page 73: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/73.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - ExampleAdjust deflections:
total DL inst LL inst DL L.T. LL L.T.
after attachment total DL inst
permissible
0.238 in. 0.147 in. 0.428 in. 0.064 in.
0.877 in.
0.877 in. 0.105 in.
0.772 in. 0.875 in. OKAY!
![Page 74: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/74.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - ExamplePart II: Check crack width @ midspan
3s cz f d A
c s
2e s
22e
2.5 in
A 2 2 2.5 in 12 in 60 in
60 in15 in
# bars 4
d d
d b
AA
![Page 75: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/75.jpg)
Serviceability Load Deflections - ExampleServiceability Load Deflections - ExampleAssume
s y0.6 0.6 60 ksi 36 ksi ACI 10.6.4f f
2336 ksi 2.5 in 15 in
120 k/in < 175 k/in OK
z
For interior exposure, the crack width @ midspan is acceptable.
![Page 76: 425-Serviceability-Chp-6-S11.ppt](https://reader035.fdocument.org/reader035/viewer/2022081602/553c14254a7959d8258b47fd/html5/thumbnails/76.jpg)
http://civilengineeringreview.com/book/theory-structures/beam-deflection-method-superposition
http://911review.org/WTC/concrete-core.html
http://iisee.kenken.go.jp/quakes/kocaeli/index.htm