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**Limitation Of Euler’s Theory of Buckling**

Euler’s formula for buckling load is,

\[{P_E} = {{{\pi ^2}EI} \over {l_{eff}^2}}\] (23.1)

If the cross-section of the column is such that it has different *I* with respect to different axis, the buckling load is given by,

\[{P_E} = {{{\pi ^2}E{I_{\min }}} \over {l_{eff}^2}}\] (23.2)

\[\Rightarrow {P_E} = {{{\pi ^2}AE} \over {l_{eff}^2}}{{{I_{\min }}} \over A} = {{{\pi ^2}AE} \over {l_{eff}^2}}k_{\min }^2\] [ \[{k_{\min }} = \sqrt {{{{I_{\min }}} \over A}} \] is minimum the radius of gyration ]

\[\Rightarrow {{{P_E}} \over A} = {\pi ^2}E{\left( {{{{k_{\min }}} \over {{l_{eff}}}}} \right)^2}\] (23.3)

Now \[{{P_E}} /{E \le {\sigma _c}}\] , where, σ_{c} is the crushing stress of a short column. Therefore,

\[{\pi ^2}E{\left( {{{{k_{\min }}} \over {{l_{eff}}}}} \right)^2} \le {\sigma _c}\]

\[\Rightarrow {{{l_{eff}}} \over {{k_{\min }}}} \ge \sqrt {{{{\pi ^2}E} \over {{\sigma _c}}}}\]

Therefore the Euler buckling theory is applicable only when the slenderness ratio \[{{{l_{eff}}} /{{k_{\min }}} \] has a minimum value. For instance, mild steel has the following properties,

*E* = 208GPa

σ_{c} = 320MPa

\[{{{l_{eff}}} \over {{k_{\min }}}}=\ge \sqrt {{{{\pi ^2}208 \times {{10}^9}} \over {320 \times {{10}^6}}}}=80\]

Therefore, for mild steel column if the slenderness is greater than 80, then only the Euler theory can be applied in order to predict the buckling load.

Moreover, in Euler’s theory it was assumed that the member is perfectly straight and homogeneous. Moreover the line of action of the applied load is assumed to be coincident with the centroidal axis of the column and therefore does not produce any moment. However in practical situations, column which satisfies all these idealization does not exist. This imposes further limitation on the direct application of Euler model in practical columns. In this lesson we will study the behavior of imperfect column and compare it with the Euler model derived in the last lesson.

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