Shape of a Bending Beam with P Applied at the Axis of Symmetry

AI Thread Summary
The discussion focuses on the bending shape of a beam under a concentrated load applied at its axis of symmetry. It references the Euler column theory, suggesting that the beam's shape resembles a half sine wave when subjected to specific conditions. Participants explore how to maintain constant arc length while applying boundary conditions and consider the implications of varying the height-to-diameter ratio (h/d) on the beam's shape. They question whether the sine shape holds true for low h/d ratios and what the shape becomes for larger ratios. The conversation emphasizes the need for clarity in the drawing while addressing the mathematical modeling of the beam's deformation.
Keegi Suvaline
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Homework Statement


A beam (e.g. a steel liner) of a length L is bent between two supports, as shown in fig (a).
According to the Euler column, the shape is a half period of a sine.
Now, a force P is applied at the axis of symmetry - fig (b).
What is the shape of the liner? y=f(x)
Instead of the general case, let's choose P so weak that the liner remains always convex (h1=0.9*h or so ...).

The Attempt at a Solution


I followed the "Strength of Materials and Structures" of Case-Chilver-Ross (ISBN:0340719206)
and tried to modify the 18.9 - "Strut with uniformly distributed lateral loading"
to a "... with concentrated lateral load" .
How to apply the boundary conditions so that the length of the liner (arc length) L remains constant?
 
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What value is the ratio h/d for your problem? If the ratio is very large, your sinusoidal shape is not correct.
 
Agreed. But this way the drawing is more clear.
Is there a solution when h/d is:
a) so low that sine shape stands?
b) so large that it is not a sine any more?
 

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