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3.2 Flange local buckling

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Introduction to flange local buckling

The fourth limit state for beams is Flange Local Buckling, or FLB for short. It is exactly the same as Web LocalBuckling, except the width-thickness ratio is in terms of the flange and not the web. This type of buckling occurswhen the width-thickness ratio is not large enough to withstand the moment on the beam. The way to prevent thistype of buckling is to limit the with-thickness ratio.

The limits can be computed for flange local buckling. The width-thickness ratio is compared to λ p and λ r . Then the maximum moment can be calculated.

Equations to determine flb

The graph illustrates the options for FLB

When,

b t λ p
there is no FLB and the cross section is compact because,
M n M p
M p F y Z 1.5 M y
from the yielding state.

When,

λ p b t λ r
the graph is linear, and therefore a linear interpolation between M p and M y is used for the maximum moment.

And finally, when

b t λ r
the graph is non-linear, the flange is non-slender, and there is an equation to find the maximum moment in AppendixF of the Specification section of the Manual (page 16.1-96).
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Source:  OpenStax, Steel design (civi 306). OpenStax CNX. Jan 22, 2004 Download for free at http://cnx.org/content/col10153/1.3
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