Ultimate Limit State Design Of Sheet Pile Walls By Finite Elements And Nonlinear Programming

Kristian Krabbenhøft; Lars Damkilde; Sven Krabbenhøft

Ultimate Limit State Design Of Sheet Pile Walls By Finite Elements And Nonlinear Programming

Kristian Krabbenhøft, Lars Damkilde, Sven Krabbenhøft

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

The design of sheet pile walls by lower bound limit analysis is considered. The design problem involves the determination of the necessary yield moment of the wall, the wall depth and the anchor force such that the structure is able to sustain the given loads. This problem is formulated as a nonlinear programming problem where the yield moment of the wall is minimized subject to equilibrium and yield conditions. The finite element discretization used enables exact fulfillment of these conditions and thus, according to the lower bound theorem, the solutions are safe

Original language	English
Journal	Computers & Structures
Volume	83
Issue number	4-5
Pages (from-to)	383-393
ISSN	0045-7949
Publication status	Published - 2005

Keywords

Sheet Pile Walls
Plasticity
Limit Analysis
Material Optimization
Finite Elements
Nonlinear Programming

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title = "Ultimate Limit State Design Of Sheet Pile Walls By Finite Elements And Nonlinear Programming",

abstract = "The design of sheet pile walls by lower bound limit analysis is considered. The design problem involves the determination of the necessary yield moment of the wall, the wall depth and the anchor force such that the structure is able to sustain the given loads. This problem is formulated as a nonlinear programming problem where the yield moment of the wall is minimized subject to equilibrium and yield conditions. The finite element discretization used enables exact fulfillment of these conditions and thus, according to the lower bound theorem, the solutions are safe",

keywords = "Sheet Pile Walls, Plasticity, Limit Analysis, Material Optimization, Finite Elements, Nonlinear Programming, Sheet Pile Walls, Plasticity, Limit Analysis, Material Optimization, Finite Elements, Nonlinear Programming",

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year = "2005",

language = "English",

volume = "83",

pages = "383--393",

journal = "Computers & Structures",

issn = "0045-7949",

publisher = "Pergamon Press",

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T1 - Ultimate Limit State Design Of Sheet Pile Walls By Finite Elements And Nonlinear Programming

AU - Krabbenhøft, Kristian

AU - Damkilde, Lars

AU - Krabbenhøft, Sven

PY - 2005

Y1 - 2005

N2 - The design of sheet pile walls by lower bound limit analysis is considered. The design problem involves the determination of the necessary yield moment of the wall, the wall depth and the anchor force such that the structure is able to sustain the given loads. This problem is formulated as a nonlinear programming problem where the yield moment of the wall is minimized subject to equilibrium and yield conditions. The finite element discretization used enables exact fulfillment of these conditions and thus, according to the lower bound theorem, the solutions are safe

AB - The design of sheet pile walls by lower bound limit analysis is considered. The design problem involves the determination of the necessary yield moment of the wall, the wall depth and the anchor force such that the structure is able to sustain the given loads. This problem is formulated as a nonlinear programming problem where the yield moment of the wall is minimized subject to equilibrium and yield conditions. The finite element discretization used enables exact fulfillment of these conditions and thus, according to the lower bound theorem, the solutions are safe

KW - Sheet Pile Walls

KW - Plasticity

KW - Limit Analysis

KW - Material Optimization

KW - Finite Elements

KW - Nonlinear Programming

KW - Sheet Pile Walls

KW - Plasticity

KW - Limit Analysis

KW - Material Optimization

KW - Finite Elements

KW - Nonlinear Programming

M3 - Journal article

SN - 0045-7949

VL - 83

SP - 383

EP - 393

JO - Computers & Structures

JF - Computers & Structures

IS - 4-5

ER -

Ultimate Limit State Design Of Sheet Pile Walls By Finite Elements And Nonlinear Programming

Abstract

Keywords

AUB Link

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