chapter objectives to determine the shear stress in straight beams subjected to transverse loading....
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Chapter Objectives
To determine the shear stress in straight beams subjected to transverse loading.
To calculate the shear flow in beams composed of several members.
Copyright © 2011 Pearson Education South Asia Pte Ltd
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1. Reading Quiz
2. Applications
3. Shear in a straight beam
4. Shear formula
5. Shear stresses in beams
6. Shear flow in built-up beams
7. Concept Quiz
In-class Activities
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READING QUIZ
1) Which one of the following statements is not true?
a) Shear stresses cause warping of cross section
b) Warping effect is negligible for slender beams
c) “Plane section remains plane” is valid for bending of deep beam
d) Shear forces in beams cause non-linear shear-strain distributions over the cross section
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READING QUIZ (cont)
2) Which one of the following statements is not true?
The shear formula should not be used to determine the shear stress…
a) …on cross sections that are short or flat
b) …at points of sudden cross-sectional changes
c) …at a point on an inclined boundary
d) None of the above
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APPLICATIONS
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SHEAR IN A STRAIGHT BEAM
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• Transverse shear stress always has its associated longitudinal shear stress acting along longitudinal planes of the beam.
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SHEAR IN A STRAIGHT BEAM (cont)
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• Effects of Shear Stresses:
• Warping of cross section
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SHEAR IN A STRAIGHT BEAM (cont)
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Note:
1. Warping” violates the assumptions of “plane section remains plane” in flexure and torsion formulae
2. “Warping” is negligible in “slender beam”
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SHEAR FORMULA
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A
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SHEAR IN BEAMS
Copyright © 2011 Pearson Education South Asia Pte Ltd
Rectangular cross section• Shear –stress distribution is parabolic
A
V
yh
bh
V
5.1
4
6
max
22
3
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SHEAR IN BEAMS (cont)
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Wide-flange beam• Shear-stress distribution is parabolic
but has a jump at the flange-to-web junctions.
Limitations on the use of shear formula• Not on cross sections that are short or flat• Not at points of sudden cross sectional changes (e.g.
flange-to-web junction in wide flange beam)• Not at a joint on an inclined boundary
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EXAMPLE 1
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A steel wide-flange beam has the dimensions shown in Fig. 7–11a. If it is subjected to a shear of V = 80 kN, plot the shear-stress distribution acting over the beam’s cross-sectional area.
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EXAMPLE 1 (cont)
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• The moment of inertia of the cross-sectional area about the neutral axis is
• For point B, tB’ = 0.3m, and A’ is the dark shaded area shown in Fig. 7–11c
Solution
4623
3
m 106.15511.002.03.002.03.012
12
2.0015.012
1
I
MPa 13.13.0106.155
1066.01080
m 1066.002.03.011.0''
6
33
'
''
33'
B
BB
B
It
VQ
AyQ
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EXAMPLE 1 (cont)
Copyright © 2011 Pearson Education South Asia Pte Ltd
• For point B, tB = 0.015m, and QB = QB’,
• For point C, tC = 0.015m, and A’ is the dark shaded area in Fig. 7–11d.
• Considering this area to be composed of two rectangles,
• Thus,
Solution
MPa 6.22
015.0106.155
1066.010806
33
B
BB It
VQ
33 m 10735.01.0015.005.002.03.011.0'' AyQC
MPa 2.25
015.0106.155
10735.010806
33
max
C
cC It
VQ
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SHEAR FLOW IN BUILT-UP BEAM
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• Shear flow ≡ shear force per unit length along longitudinal axis of a beam.
I
VQq
q = shear flowV = internal resultant shearI = moment of inertia of the entire cross-sectional area
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SHEAR FLOW IN BUILT-UP BEAM (cont)
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EXAMPLE 2
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Nails having a total shear strength of 40 N are used in a beam that can be constructed either as in Case I or as in Case II, Fig. 7–18. If the nails are spaced at 90 mm, determine the largest vertical shear that can be supported in each case so that the fasteners will not fail.
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EXAMPLE 2 (cont)
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• Since the cross section is the same in both cases, the moment of inertia about the neutral axis is
Case I • For this design a single row of nails holds the top or bottom flange onto
the web. • For one of these flanges,
Solution
433 mm 205833401012
125030
12
1
I
(Ans) N 1.27205833
3375
90
40
mm 33755305.22'' 3
V
VI
VQq
AyQ
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EXAMPLE 2 (cont)
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Case II• Here a single row of nails holds one of the side boards onto the web.• Thus,
Solutions
(Ans) N 3.81205833
1125
90
40
mm 11255105.22'' 3
V
VI
VQq
AyQ
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1) Which one of the following statements is not true?
a) The shear center always lies on an axis of symmetry of the cross section.
b) A crack along the member at a distance a/3 above/below the neutral axis will first start to appear due to shear.
c) A crack along the member at the neutral axis will first start to appear due to shear.
d) The centroid of the cross section coincides with the neutral axis.
CONCEPT QUIZ
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