TheSouthwell plot is agraphical method of determining experimentally a structure'scritical load, without needing to subject the structure to near-critical loads.^[1] The technique can be used fornondestructive testing of anystructural elements that may fail bybuckling.^[2]

Consider a simply supported beam under a compressive loadP. Thedifferential equation of equilibrium is

${\displaystyle \frac{d^{4}v}{d{x}^4}+{\alpha }^2\frac{d^2}{d{x}^2}(v-v^o)=0}$,${\displaystyle {\alpha }^2=\frac{P}{EI}}$

wherev^o is the initial deflection, and theboundary conditions are

${\displaystyle v(0)=v^{{}^{″}}(0)=v(L)=v^{{}^{″}}(L)=0}$

Assuming that the deflected shape can be expressed as aFourier series

${\displaystyle v^o(x)=\sum _1^{\mathrm{\infty }}{v}_n^o\sin \frac{n\pi x}{L}}$,${\displaystyle v(x)=\sum _1^{\mathrm{\infty }}{v}_n\sin \frac{n\pi x}{L}}$

Then after substitution into the differential equation,

${\displaystyle v(x)=\sum _1^{\mathrm{\infty }}\frac{v_n^o}{P_n/P-1}\sin \frac{n\pi x}{L}}$,${\displaystyle P_n=\frac{n^2{\pi }^{2}EI}{L^2}}$

This relates the deflected shape to the initial imperfections and the applied load. Specifically, atx=L/2,

${\displaystyle v(L/2)=V_1-V_3+V_5+...}$,${\displaystyle V_n=\frac{v_n^o}{P_n/P-1}}$

AsP approachesP₁,v(L/2) is dominated byV₁. Therefore, whenP${\displaystyle \approx }$P₁, then the fundamental mode will dominate, resulting in

${\displaystyle v=V_1=\frac{v_1^o}{P_1/P-1}or\frac{v}{P}=\frac{v}{P_c}+\frac{v_i^o}{P_c}}$

Southwell plotsv/P againstv and obtainsP₁=P_critical=P_c from the slope of the predicted straight line graph.^[3]

This analysis was done for a specific point on asimply supported beam, but the concept can be extended to arbitrary structures. With any problem whose mathematical analog is the same fourth order ordinary differential equation as above, with similar boundary conditions, the first eigenvalue of the associated homogeneous problem can be obtained from the slope of the graph. Therefore, a point of large deflection can be chosen, and it does not need to be the center of a simply supported beam.^[3]

Strictly speaking, Southwell's Plot is applicable only to structures with a neutral post-buckling path. Initially created for stability problems in column buckling, the Southwell method has also been used to determine critical loads in frame and plate buckling experiments.

The method is particularly useful for field tests of structures that are likely to be damaged by applying loads near the critical load and beyond, such asreinforced concrete columns oradvanced composite materials.^[2] The method can also minimize parasitic effects in experiments and give values that are closer to the theoretically expected values. For example, in a real experiment setup it is impossible to reproduce any theoretical boundary condition perfectly. Additionally, the results of compressive tests can be very sensitive to imperfections and the actual boundary conditions. Therefore, the measured critical load during the experiment can be very different from what is predicted.^[3]

• Nondestructive testing
• Mechanics

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