Buckling question finding equivalent length and I

In summary, the equivalent length and moment of inertia in buckling problems depend on the end conditions and axis of buckling being considered. The equivalent length is determined by a table of end conditions and Le and k-factors, while the moment of inertia is calculated based on the least moment of inertia axis. For symmetrical sections, buckling will occur about the coordinate axis with the least moment of inertia. The provided articles offer further guidance and examples on calculating and manipulating moments of inertia and understanding buckling.
  • #1
member 392791
Hello,

I am having trouble understanding why the equivalent length in buckling problems, as well as the moment of inertia, change depending on what plane of buckling you are looking for, and how to calculate the moment of inertia in a particular plane
 
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  • #2
Equivalent length in buckling problems is determined by the end conditions of the column under consideration. Most textbooks give a table showing the various combinations of end conditions, along with Le and k-factors to calculate the critical load.

Buckling also takes place about the axis which has the least moment of inertia. If an L section is used to make a column, the nature of the cross-section will cause buckling to occur about an oblique axis. For sections which are symmetrical, like an I-beam, buckling will occur about the coordinate axis which has the least moment of inertia.

The following article gives you a good background in calculating and manipulating moments of inertia:

http://ocw.nthu.edu.tw/ocw/upload/43/763/static_ch9.pdf

Buckling is discussed here:

http://www.steel-insdag.org/TeachingMaterial/Chapter6.pdf
 

Related to Buckling question finding equivalent length and I

1. What is buckling?

Buckling is a phenomenon in which a structural member, such as a column or beam, fails due to compressive stress. It occurs when the critical load of the member is exceeded, causing it to suddenly collapse or buckle.

2. How is buckling related to equivalent length?

In structural analysis, the concept of equivalent length is used to simplify the calculation of buckling. It represents the length of an idealized column that would have the same buckling load as the actual column. This allows for a more efficient and accurate analysis of buckling behavior.

3. What factors affect the buckling of a structural member?

The main factors that affect buckling are the material properties of the member (such as its modulus of elasticity and yield strength), its cross-sectional area and shape, and the end conditions of the member (whether it is fixed, pinned, or free to rotate).

4. How can buckling be prevented?

Buckling can be prevented through proper design and reinforcement of structural members, such as using thicker or stronger materials, increasing the cross-sectional area, or providing additional support at critical points. Other measures, such as bracing or using trusses, can also help to prevent buckling.

5. Is buckling always a bad thing?

Not necessarily. In some cases, controlled buckling can be used to distribute loads and reduce stress on certain parts of a structure. However, in most cases, buckling is undesirable as it can lead to failure and potential safety hazards.

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