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{info} This article was originally created for SAP2000, but the concept applies also to CSiBridge. {info} This page describes how to model pile lateral support based on P-y curves. {on-this-page} h1. Introduction P-y curves describe the lateral soil resistance along the depth of a pile or drilled shaft and are typically provided by geotechnical engineer. For each layer of the soil along the depth of a pile, the P-y curve describes lateral soil reaction _P_ per unit length along the pile mobilized by lateral pile displacement _y_. The relationship between _P_ and _y_ is nonlinear. The modeling of lateral soil support involves the following steps: * Define the properties of links that will represent the lateral support provided by the soil. * Draw discrete links at the joints of the pile: one link per joint for non-gapping soil behavior; and two links per joint at each side of the piles for gapping soils: !1_1.png|border=1! * One link per joint for non-gapping soil behavior* \\ \\ !2.png|border=1! * Two links per joint at each side of the piles for gapping soils* h1. Link Definition Nonlinear link properties can be defined (in SAP2000) via "Define > Section Properties > Link/Support Properties" as follows: * Add new link property of "MultiLinear Plastic" type and specify nonlinear link stiffness for U2 degree of freedom to match the stiffness described by the P-y curve. " ** For material with non-gapping behavior, define the link with stiffness in both sides of the curve, and select Kinematic as the hysteretic model: \\ !3.png|border=1! *Link Definition Non-Gapping Behavior* \\ \\ ** For material with gapping behavior, define the link with the tension side stiffness equal to zero, and select Takeda as the hysteretic model, !4.png|border=1! * Link Definition Gapping Behavior* h1. Link Assignment Assign the above-defined links to the links using the Assign>Link/Support>Link/Support Properties menu command. h1. Hysteretic Example of the hysteretic behavior obtained from a Displacement\- Based Quasi-Static Nonlinear Time History Analysis. In this example, an increasingly cyclic displacement load was applied to the a pile joint.: \\ !5.png|border=1!\\ *The Kinematics model gives non-gapping behavior* \\ \\ !6.png|border=1!\\ *The Takeda model gives gapping behavior when one side of the curve is all zero* h1. Miscellaneous * For non-gapping material, you can assign the links to the frame elements representing the piles as [line springs|https://wiki.csiberkeley.com/display/tp/Line+and+area+springs], instead of drawing them as discrete elements \\ ** Mesh the piles within each soil layer. \\ ** Select the pile frame elements within a given soil layer and use the "Assign > Frames > Line Links" menu command to assign the P-y link with the properties corresponding to that layer. Repeat this for all layers. {hidden-content} Related Incidents: * {incident:no=31866|comment=Inputting P-y curves, includes typical table with P-y curve data} {hidden-content} |
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