third edition mechanics of materials -...
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MECHANICS OF
MATERIALS
Third Edition
Ferdinand P. Beer
E. Russell Johnston, Jr.
John T. DeWolf
Lecture Notes:
J. Walt Oler
Texas Tech University
CHAPTER
© 2002 The McGraw-Hill Companies, Inc. All rights reserved.
6 Shearing Stresses in
Beams and Thin-
Walled Members
![Page 2: Third Edition MECHANICS OF MATERIALS - …site.iugaza.edu.ps/btayeh/files/2013/07/CH-6-Shearing_stresses1.pdf · SOLUTION: •Determine the horizontal force per unit length or shear](https://reader031.vdocuments.mx/reader031/viewer/2022021717/5b40aa987f8b9a5e528d86f3/html5/thumbnails/2.jpg)
© 2002 The McGraw-Hill Companies, Inc. All rights reserved.
MECHANICS OF MATERIALS
Th
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ditio
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Beer • Johnston • DeWolf
6 - 2
Shearing Stresses in Beams and
Thin-Walled Members
Introduction
Shear on the Horizontal Face of a Beam Element
Example 6.01
Determination of the Shearing Stress in a Beam
Shearing Stresses txy in Common Types of Beams
Further Discussion of the Distribution of Stresses in a ...
Sample Problem 6.2
Longitudinal Shear on a Beam Element of Arbitrary Shape
Example 6.04
Shearing Stresses in Thin-Walled Members
Plastic Deformations
Sample Problem 6.3
Unsymmetric Loading of Thin-Walled Members
Example 6.05
Example 6.06
![Page 3: Third Edition MECHANICS OF MATERIALS - …site.iugaza.edu.ps/btayeh/files/2013/07/CH-6-Shearing_stresses1.pdf · SOLUTION: •Determine the horizontal force per unit length or shear](https://reader031.vdocuments.mx/reader031/viewer/2022021717/5b40aa987f8b9a5e528d86f3/html5/thumbnails/3.jpg)
© 2002 The McGraw-Hill Companies, Inc. All rights reserved.
MECHANICS OF MATERIALS
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6 - 3
Introduction
![Page 4: Third Edition MECHANICS OF MATERIALS - …site.iugaza.edu.ps/btayeh/files/2013/07/CH-6-Shearing_stresses1.pdf · SOLUTION: •Determine the horizontal force per unit length or shear](https://reader031.vdocuments.mx/reader031/viewer/2022021717/5b40aa987f8b9a5e528d86f3/html5/thumbnails/4.jpg)
© 2002 The McGraw-Hill Companies, Inc. All rights reserved.
MECHANICS OF MATERIALS
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Beer • Johnston • DeWolf
6 - 4
Introduction
![Page 5: Third Edition MECHANICS OF MATERIALS - …site.iugaza.edu.ps/btayeh/files/2013/07/CH-6-Shearing_stresses1.pdf · SOLUTION: •Determine the horizontal force per unit length or shear](https://reader031.vdocuments.mx/reader031/viewer/2022021717/5b40aa987f8b9a5e528d86f3/html5/thumbnails/5.jpg)
© 2002 The McGraw-Hill Companies, Inc. All rights reserved.
MECHANICS OF MATERIALS
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6 - 5
Shear on the Horizontal Face of a Beam Element
• Consider prismatic beam
• For equilibrium of beam element
A
CD
ADDx
dAyI
MMH
dAHF 0
xVxdx
dMMM
dAyQ
CD
A
• Note,
flowshearI
VQ
x
Hq
xI
VQH
• Substituting,
![Page 6: Third Edition MECHANICS OF MATERIALS - …site.iugaza.edu.ps/btayeh/files/2013/07/CH-6-Shearing_stresses1.pdf · SOLUTION: •Determine the horizontal force per unit length or shear](https://reader031.vdocuments.mx/reader031/viewer/2022021717/5b40aa987f8b9a5e528d86f3/html5/thumbnails/6.jpg)
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MECHANICS OF MATERIALS
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Shear on the Horizontal Face of a Beam Element
flowshearI
VQ
x
Hq
• Shear flow,
• where
section cross full ofmoment second
above area ofmoment first
'
2
1
AA
A
dAyI
y
dAyQ
• Same result found for lower area
HH
qI
QV
x
Hq
axis neutral to
respect h moment witfirst
0
![Page 7: Third Edition MECHANICS OF MATERIALS - …site.iugaza.edu.ps/btayeh/files/2013/07/CH-6-Shearing_stresses1.pdf · SOLUTION: •Determine the horizontal force per unit length or shear](https://reader031.vdocuments.mx/reader031/viewer/2022021717/5b40aa987f8b9a5e528d86f3/html5/thumbnails/7.jpg)
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MECHANICS OF MATERIALS
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Example 6.01
A beam is made of three planks,
nailed together. Knowing that the
spacing between nails is 25 mm and
that the vertical shear in the beam is
V = 500 N, determine the shear force
in each nail.
SOLUTION:
• Determine the horizontal force per
unit length or shear flow q on the
lower surface of the upper plank.
• Calculate the corresponding shear
force in each nail.
![Page 8: Third Edition MECHANICS OF MATERIALS - …site.iugaza.edu.ps/btayeh/files/2013/07/CH-6-Shearing_stresses1.pdf · SOLUTION: •Determine the horizontal force per unit length or shear](https://reader031.vdocuments.mx/reader031/viewer/2022021717/5b40aa987f8b9a5e528d86f3/html5/thumbnails/8.jpg)
© 2002 The McGraw-Hill Companies, Inc. All rights reserved.
MECHANICS OF MATERIALS
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Example 6.01
46
2
3
121
3
121
36
m1020.16
]m060.0m100.0m020.0
m020.0m100.0[2
m100.0m020.0
m10120
m060.0m100.0m020.0
I
yAQ
SOLUTION:
• Determine the horizontal force per
unit length or shear flow q on the
lower surface of the upper plank.
mN3704
m1016.20
)m10120)(N500(46-
36
I
VQq
• Calculate the corresponding shear
force in each nail for a nail spacing of
25 mm.
mNqF 3704)(m025.0()m025.0(
N6.92F
![Page 9: Third Edition MECHANICS OF MATERIALS - …site.iugaza.edu.ps/btayeh/files/2013/07/CH-6-Shearing_stresses1.pdf · SOLUTION: •Determine the horizontal force per unit length or shear](https://reader031.vdocuments.mx/reader031/viewer/2022021717/5b40aa987f8b9a5e528d86f3/html5/thumbnails/9.jpg)
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MECHANICS OF MATERIALS
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Beer • Johnston • DeWolf
6 - 9
Determination of the Shearing Stress in a Beam
• The average shearing stress on the horizontal
face of the element is obtained by dividing the
shearing force on the element by the area of
the face.
It
VQ
xt
x
I
VQ
A
xq
A
Have
t
• On the upper and lower surfaces of the beam,
tyx= 0. It follows that txy= 0 on the upper and
lower edges of the transverse sections.
• If the width of the beam is comparable or large
relative to its depth, the shearing stresses at D1
and D2 are significantly higher than at D.
![Page 10: Third Edition MECHANICS OF MATERIALS - …site.iugaza.edu.ps/btayeh/files/2013/07/CH-6-Shearing_stresses1.pdf · SOLUTION: •Determine the horizontal force per unit length or shear](https://reader031.vdocuments.mx/reader031/viewer/2022021717/5b40aa987f8b9a5e528d86f3/html5/thumbnails/10.jpg)
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MECHANICS OF MATERIALS
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Shearing Stresses txy in Common Types of Beams
• For a narrow rectangular beam,
A
V
c
y
A
V
Ib
VQxy
2
3
12
3
max
2
2
t
t
• For American Standard (S-beam)
and wide-flange (W-beam) beams
web
ave
A
V
It
VQ
maxt
t
![Page 11: Third Edition MECHANICS OF MATERIALS - …site.iugaza.edu.ps/btayeh/files/2013/07/CH-6-Shearing_stresses1.pdf · SOLUTION: •Determine the horizontal force per unit length or shear](https://reader031.vdocuments.mx/reader031/viewer/2022021717/5b40aa987f8b9a5e528d86f3/html5/thumbnails/11.jpg)
© 2002 The McGraw-Hill Companies, Inc. All rights reserved.
MECHANICS OF MATERIALS
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Beer • Johnston • DeWolf
6 - 11
Sample Problem 6.2
A timber beam is to support the three
concentrated loads shown. Knowing
that for the grade of timber used,
psi120psi1800 allall t
determine the minimum required depth
d of the beam.
SOLUTION:
• Develop shear and bending moment
diagrams. Identify the maximums.
• Determine the beam depth based on
allowable normal stress.
• Determine the beam depth based on
allowable shear stress.
• Required beam depth is equal to the
larger of the two depths found.
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MECHANICS OF MATERIALS
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Beer • Johnston • DeWolf
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Sample Problem 6.2
SOLUTION:
Develop shear and bending moment
diagrams. Identify the maximums.
inkip90ftkip5.7
kips3
max
max
M
V
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MECHANICS OF MATERIALS
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Beer • Johnston • DeWolf
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Sample Problem 6.2
2
261
261
3121
in.5833.0
in.5.3
d
d
dbc
IS
dbI
• Determine the beam depth based on allowable
normal stress.
in.26.9
in.5833.0
in.lb1090psi 1800
2
3
max
d
d
S
Mall
• Determine the beam depth based on allowable
shear stress.
in.71.10
in.3.5
lb3000
2
3psi120
2
3 max
d
d
A
Vallt
• Required beam depth is equal to the larger of the two.
in.71.10d
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MECHANICS OF MATERIALS
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Example 6.04
A square box beam is constructed from
four planks as shown. Knowing that the
spacing between nails is 1.5 in. and the
beam is subjected to a vertical shear of
magnitude V = 600 lb, determine the
shearing force in each nail.
SOLUTION:
• Determine the shear force per unit
length along each edge of the upper
plank.
• Based on the spacing between nails,
determine the shear force in each
nail.
![Page 15: Third Edition MECHANICS OF MATERIALS - …site.iugaza.edu.ps/btayeh/files/2013/07/CH-6-Shearing_stresses1.pdf · SOLUTION: •Determine the horizontal force per unit length or shear](https://reader031.vdocuments.mx/reader031/viewer/2022021717/5b40aa987f8b9a5e528d86f3/html5/thumbnails/15.jpg)
© 2002 The McGraw-Hill Companies, Inc. All rights reserved.
MECHANICS OF MATERIALS
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Example 6.04
For the upper plank,
3in22.4
.in875.1.in3in.75.0
yAQ
For the overall beam cross-section,
4
3
1213
121
in42.27
in3in5.4
I
SOLUTION:
• Determine the shear force per unit
length along each edge of the upper
plank.
lengthunit per force edge
in
lb15.46
2
in
lb3.92
in27.42
in22.4lb6004
3
qf
I
VQq
• Based on the spacing between nails,
determine the shear force in each
nail.
in75.1in
lb15.46
fF
lb8.80F
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MECHANICS OF MATERIALS
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Shearing Stresses in Thin-Walled Members
• Consider a segment of a wide-flange
beam subjected to the vertical shear V.
• The longitudinal shear force on the
element is
xI
VQH
It
VQ
xt
Hxzzx
tt
• The corresponding shear stress is
• NOTE: 0xyt
0xzt
in the flanges
in the web
• Previously found a similar expression
for the shearing stress in the web
It
VQxy t
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Shearing Stresses in Thin-Walled Members
• The variation of shear flow across the
section depends only on the variation of
the first moment.
I
VQtq t
• For a box beam, q grows smoothly from
zero at A to a maximum at C and C’ and
then decreases back to zero at E.
• The sense of q in the horizontal portions
of the section may be deduced from the
sense in the vertical portions or the
sense of the shear V.
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MECHANICS OF MATERIALS
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Shearing Stresses in Thin-Walled Members
• For a wide-flange beam, the shear flow
increases symmetrically from zero at Aand A’, reaches a maximum at C and the
decreases to zero at E and E’.
• The continuity of the variation in q and
the merging of q from section branches
suggests an analogy to fluid flow.
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Sample Problem 6.3
Knowing that the vertical shear is 50
kips in a W10x68 rolled-steel beam,
determine the horizontal shearing
stress in the top flange at the point a.
SOLUTION:
• For the shaded area,
3in98.15
in815.4in770.0in31.4
Q
• The shear stress at a,
in770.0in394
in98.15kips504
3
It
VQt
ksi63.2t