Does the Neutral Axis Move in a Symmetrical Beam?

In summary: However, if you are specifically asking about the neutral axis, it is the point where the stress is equal in both the compression and tension sides.
  • #1
ripson
3
0
Hi

Consider a symmetrical beam, where as we know the Neutral Axis (NA) would be at the Geometric Center. If that beam was simply supported at both ends, there would be equal tension and compression to ensure that beam was in equilibrium.

Now if we applied a vertical load, downwards, in the center, the beam would sag and be in compression at the top and tension on the bottom. My question is: Would the NA move to accommodate the increase in tension on the bottom surface? If it doesn't, how can this be, as tension has increased?

Thanks in advance...
 
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  • #2
Hi

Consider a symmetrical beam, where as we know the Neutral Axis (NA) would be at the Geometric Center. If that beam was simply supported at both ends, there would be equal tension and compression to ensure that beam was in equilibrium.

Now if we applied a vertical load, downwards, in the center, the beam would sag and be in compression at the top and tension on the bottom. My question is: Would the NA move to accommodate the increase in tension on the bottom surface? If it doesn't, how can this be, as tension has increased?

Thanks in advance...
 
  • #3
Yes it does, but not enough to bother about if you are doing a conventional beam bending analysis.

The cross section also deforms because of Poisson's ratio. The tension side gets narrower, the compression side gets wider, and the top and bottom surfaces curve (anti-clastic curvature).

You can see this easily if you bend short, thick, flexible beam - e.g. a rectangular-block-shaped pencil eraser.
 
  • #4
Well, the term "neutral axis" refers to a situation where the beam *is* loaded. What exactly is your question?
 
  • #5
Thanks AlephZero.

Good point about Possion's Ratio, I never really appreciated that in beam bending. Thanks for the eraser analogy too, I like to keep things simple.

So just to confirm, when the beam is relaxed, in equilibrium, there will be no stress at the top or the bottom. But when it hogs, we get compression on the top and tension on the bottom. My friend was saying that there is always some stress on the top and bottom, but I can't see this.

Thanks again...
 
  • #6
It depends on just how technical you want to get in regards to what your friend is saying. Technically, every beam will deflect slightly under its own weight. So in that context, yes. There is always a slight tensile and compressive stress in a beam.
 

1. What is the neutral axis and why is it important?

The neutral axis is an imaginary line that runs through the cross-section of a beam or other structural member, dividing it into two equal parts. It is important because it is the location where the bending stress is zero, which helps determine the strength and stability of the structure.

2. Does the neutral axis move under load?

Yes, the neutral axis can move under load. When a beam or other structural member is subjected to bending, the top and bottom fibers experience different amounts of stress, causing the neutral axis to shift towards the side with higher stress.

3. How does the position of the neutral axis affect the strength of a structure?

The position of the neutral axis can greatly affect the strength of a structure. If the neutral axis is located closer to the bottom of the structure, it will be able to resist greater bending stress and therefore have a higher strength. However, if the neutral axis is located closer to the top, the structure will be weaker and more prone to bending and failure.

4. Can the neutral axis be controlled or manipulated?

Yes, the neutral axis can be controlled and manipulated by changing the shape or material of the structural member. For example, by increasing the depth of a beam, the neutral axis will shift downwards, making it stronger. Additionally, by using different materials with varying stiffness, the neutral axis can be moved to a desired location.

5. How does the neutral axis relate to other structural properties such as moment of inertia and section modulus?

The neutral axis is directly related to the moment of inertia and section modulus of a structural member. These properties are used to calculate the location of the neutral axis and determine the strength and stiffness of the structure. The higher the moment of inertia and section modulus, the stronger the structure and the more control over the position of the neutral axis.

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