# ELASTIC FLEXURAL-TORSIONAL BUCKLING ANALYSIS USING FINITE ELEMENT METHOD AND OBJECT-ORIENTED TECHNOLOGY WITH C/C++

Roberts, Erin Renee (2004) ELASTIC FLEXURAL-TORSIONAL BUCKLING ANALYSIS USING FINITE ELEMENT METHOD AND OBJECT-ORIENTED TECHNOLOGY WITH C/C++. Master's Thesis, University of Pittsburgh. (Unpublished)

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## Abstract

Flexural-torsional buckling is an important limit state that must be considered in structural steel design. Flexural-torsional buckling occurs when a structural member experiences significant out-of-plane bending and twisting. This type of failure occurs suddenly in members with a much greater in-plane bending stiffness than torsional or lateral bending stiffness. Flexural-torsional buckling loads may be predicted using energy methods. This thesis considers the total potential energy equation for the flexural-torsional buckling of a beam-column element. The energy equation is formulated by summing the strain energy and the potential energy of the external loads. Setting the second variation of the total potential energy equation equal to zero provides the equilibrium position where the member transitions from a stable state to an unstable state. The finite element method is applied in conjunction with the energy method to analyze the flexural-torsional buckling problem. To apply the finite element method, the displacement functions are assumed to be cubic polynomials, and the shape functions are used to derive the element stiffness and element geometric stiffness matrices. The element stiffness and geometric stiffness matrices are assembled to obtain the global stiffness matrices of the structure. The final finite element equation obtained is in the form of an eigenvalue problem. The flexural-torsional buckling loads of the structure are determined by solving for the eigenvalue of the equation. The finite element method is compatible with software development so that computer technology may be utilized to aid in the analysis process. One of the most preferred types of software development is the object-oriented approach. Object-oriented technology is a technique of organizing the software around real world objects. An existing finite element software package which calculates the elastic flexural-torsional buckling loads of a plane frame was obtained from previous research. This program is refactored into an object-oriented design to improve the structure of the software and increase its flexibility. Several examples are presented to compare the results of the software package to existing solutions. These examples show that the program provides acceptable results when analyzing a beam-column or plane frame structure subjected to concentrated moments and concentrated, axial, and distributed loads.

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## Details

Item Type: University of Pittsburgh ETD
Status: Unpublished
Creators/Authors:
Roberts, Erin Reneeerlst13@pitt.eduERLST13
ETD Committee:
Committee ChairTorkamani, Morteza A M
Committee MemberEarls, Christopher J
Committee MemberVandenbossche, Julie M
Date: 9 June 2004
Date Type: Completion
Defense Date: 12 April 2004
Approval Date: 9 June 2004
Submission Date: 12 April 2004
Access Restriction: No restriction; Release the ETD for access worldwide immediately.
Institution: University of Pittsburgh
Schools and Programs: Swanson School of Engineering > Civil and Environmental Engineering
Degree: MSCE - Master of Science in Civil Engineering
Thesis Type: Master's Thesis
Refereed: Yes
Uncontrolled Keywords: lateral torsional buckling; object oriented programming
Other ID: http://etd.library.pitt.edu/ETD/available/etd-04122004-201735/, etd-04122004-201735
Date Deposited: 10 Nov 2011 19:35