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Table of Contents

Simply supported beam P-δ

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P-δ

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is

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a

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local

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effect

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associated

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with

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axial

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load

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on

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displacement

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relative

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to

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element

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chord

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extending

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between

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end

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nodes.

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Figure

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1

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illustrates

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the

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influence

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of

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P-δ

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on

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a

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simply

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supported

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beam.

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Here,

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a

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longitudinal distributed

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load

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ω

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correlates

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with

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elastic

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bending-stiffness

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properties

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K

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E

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to

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induce

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vertical

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displacement

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δ

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.

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An

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additional

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flexural

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contribution

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comes

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from

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the

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relationship

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between

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this

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deformed

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configuration

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and

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axial

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load

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P

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.

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The

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geometric

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stiffness

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properties

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K

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G

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which

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dictate

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this

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relationship

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are

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discussed

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further

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in

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Dr.

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Edward

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L.

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Wilson's

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text, Static and Dynamic Analysis of Structures.

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The article.

Values for the maximum flexural response which occurs at element midspan are shown in Figure 1:



Image Added

Figure 1 - P-δ applied to a simply supported beam

Cantilevered column P-δ

Now, when observing P-δ effect on a cantilevered column, response is shown in Figure 2:


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Figure 2 - P-δ applied to a cantilevered column (single curvature)


However, columns seldom displace with single curvature. More commonly, especially with multi-story-building analysis and design, columns deform according to a third-order (cubic) displacement pattern under double curvature. As shown in Figure 3, P-δ effect is much less pronounced because an inflection point intersects the element chord near midspan, previously where displacement from chord was greatest.


Image Added

Figure 3 - P-δ applied to a cantilevered column (double curvature)

Cantilevered column P-∆

However, what is often of significance, given this loading condition and double-curvature displacement pattern, is P-∆ effect. Although displacement deviates from element chord much less, the lateral displacement associated with story drift is significant. With increasing levels of drift, gravity load has a greater effect on mechanical behavior, as shown in Figure 4. P-∆ effect should be implemented during design, whether static or dynamic, linear or nonlinear.


Image Added

Figure 4 - P-∆ applied to a cantilevered column

References

  • Wilson, E. L. (2004). Static and Dynamic Analysis of Structures (4th ed.). Berkeley, CA: Computers and Structures, Inc.