Strength of Materials I EGCE201 ?????????? 1

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Strength of Materials I EGCE201 ?????????? 1

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Title: Strength of Materials I EGCE201 1 Last modified by: USER Created Date: 11/23/2006 12:24:41 PM Document presentation format – PowerPoint PPT presentation

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Title: Strength of Materials I EGCE201 ?????????? 1

1
Strength of Materials I EGCE201 ?????????? 1

Instructor ??.???????? ????????? (?.??)
????????? 6391 ???????????????????
E-mail egwpr_at_mahidol.ac.th
???????? 66(0) 2889-2138 ??? 6391
www.egmu.net/civil/wonsiri

2
Shearing Stress in Multiple Shafts
Static equilibrium must be satisfied. The vector
of all applied torques 0
TATBTCTD0
The shearing stress at any point in the shaft is
a function of the Internal torque on a plane
containing the point. The maximum Stress is
computed from
Internal torque
Radius of the shaft
The polar moment of inertia
3
The shearing stress at a point on shaft through
which section 1 passes can only be defined once
the internal torque is determined.
From the free-body diagram, the internal torque
at the section
The shearing stress is given by
4
The shearing stress at a point on shaft through
which section 2 passes can only be defined once
the internal torque is determined.
From the free-body diagram, the internal torque
at the section
The shearing stress is given by
5
Angle of Twist in Multiple Shafts

For this shaft sections AB, BC, and CE will each
have different
Internal torque (FBD)
Polar moment of inertia
Shear Modulus
Length

The angle of twist of the end of a shaft
consisting of N sections is expressed as
6
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7
Relative Rotation
In some situations both ends of a shaft rotate.
The angle of twist is the angle through which one
end rotates w.r.t the other.
fixed
Both rotates
Shaft AB
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9
Shearing Stress on inclined planes
10
Shearing Stress on inclined planes
11
Statically Indeterminate Shafts

Both ends of the shaft are built in, leading to
two reaction torques but one has only one moment
equilibrium equation.
The compatibility equation is the relative
rotation!
See example

12
Assuming a counterclockwise torque is positive,
summing moments about the axis of the shaft
results in
The total angle of twist of the shaft must be 0
since both ends are fixed.
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14
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15
1.
16
2.
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18
3.
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4.
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5.
21
5. continued
22
5. continued
23
6.
24
6. continued
25
6. continued

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