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Analysis of Beams in Bending (5.1-5.3)

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Title: Analysis of Beams in Bending (5.1-5.3)


1
Analysis of Beams in Bending (5.1-5.3)
  • MAE 314 Solid Mechanics
  • Yun Jing

2
Bending Moment Along a Beam
  • In this chapter, we will learn how to find the
    bending moment M along the beam.
  • M is not necessarily constant sometimes M is a
    function of x.
  • We will also solve for the shear force V(x),
    which will be used in Chapter 6.
  • As before, we need a new FBD every time the
    loading changes.

2
1
3
1
2
3
Review of Beam Supports
  • 3 equilibrium equations S FY 0, S FX 0, S M
    0
  • Ignore the horizontal (x-direction) components,
    because these are axial loading.

R1
R3
R1
R1
R3
M1
R2
R2
R2
R1
R1
R3
M1
M2
M1
R1
R3
R3
R4
R2
R2
R4
R2
4
Sign Convention
  • Recall the applied loading results in both a
    bending moment M and a shear force V.

Positive shear and bending moment
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8
Example Problem
  • Draw the shear and bending moment diagrams for
    the beam and
  • loading shown, and determine the maximum absolute
    value (a) of the
  • shear and (b) of the bending moment.

9
Relations Between F, V, and M
  • For beams with more complicated loading, it is
    helpful to develop a relationship between load,
    shear and bending moment.
  • Sum forces in the vertical direction.

or
10
Relations Between F, V, and M
  • Sum moment about C.
  • Neglect (?x)2 term since it is much smaller
    than?x term.

or
11
Example Problem
  • Determine (a) the equations of the shear and
    bending moment curves
  • for the beam and loading shown, and (b) the
    maximum absolute value
  • of the bending moment in the beam.

12
Example Problem
  • Draw the shear and bending-moment diagrams for
    the beam and loading shown.

13
Design of Beams in Bending (5.4)
  • MAE 314 Solid Mechanics
  • Yun Jing

14
Design of Beams for Bending
  • Recall the largest normal stress in the beam
    subject to bending occurs at the surface and can
    be defined as
  • A safe design requires the maximum stress is no
    more than the allowable stress (smax sall), so

where
15
Procedure for Design
  • Determine the value for sall.
  • Draw shear and moment diagrams.
  • From the diagrams, determine the maximum absolute
    bending moment.
  • Determine the minimum allowable value Smin.
  • Use Smin to determine best cross section
    dimensions.
  • Timber beam Smin bh2/6
  • Rolled-steel beam Use Appendix C in textbook

16
Example Problem
  • For the beam and loading shown, design the cross
    section of the beam,
  • knowing that the grade of timber used has an
    allowable normal stress of
  • 12 MPa.

17
Example Problem
  • Knowing that the allowable stress for the steel
    used is 160 MPa, select
  • the most economical S-shape beam to support the
    loading shown.

18
Example Problem
  • A beam is to be made of steel that has an
    allowable bending stress of 170MPa. Select an
    appropriate W shape that will carry the loading
    shown in the figure below
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