Bending Tensile Stress
In the below figure, a beam is loaded by hanging a 1,500 N downward force. What is the tensile stress due to bending?
Expand Hint
Because there is a fixed roller towards the middle section of the beam, the max bending moment occurs on the beam's right portion:
$$$Max\:Bending\:Moment=force\times distance$$$
Hint 2
The normal stress in a beam due to bending:
$$$\sigma_x=\frac{My}{I}$$$
where
$$M$$
is the moment at the section,
$$I$$
is the moment of inertia of the cross section, and
$$y$$
is the distance from the neutral axis to the fiber location above or below the neutral axis.
Because there is a fixed roller towards the middle section of the beam, the max bending moment occurs on the beam's right portion:
$$$Max\:Bending\:Moment=force\times distance$$$
$$$=1500N\times 850mm=1.275\cdot 10^6\:N\cdot mm$$$
The normal stress in a beam due to bending:
$$$\sigma_x=\frac{My}{I}$$$
where
$$M$$
is the moment at the section,
$$I$$
is the moment of inertia of the cross section, and
$$y$$
is the distance from the neutral axis to the fiber location above or below the neutral axis.
$$$\sigma_{tension}=\frac{(1.275\cdot 10^6N\cdot mm)(15mm)}{11\cdot 10^4mm^4}=174\:MPa$$$
174 MPa
Time Analysis
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