Numerical solutions for time-dependent problems /

Tham, Leslie George.

January 1981

Thesis (Ph. D.)--University of Hong Kong, 1981.

Identifying the location of a sudden damage in composite laminates using wavelet approach

Salehian, Armaghan.

January 2003

Thesis (M.S.)--Worcester Polytechnic Institute. / Keywords: damage; composite; wavelet. Includes bibliographical references (p. 64-66).

Dynamic analysis of coupled structure foundation system by the finite element method

Chu, Juhui., 储聚慧.

January 2010

published_or_final_version / Civil Engineering / Master / Master of Philosophy

Structural analysis (Engineering)

Finite element method.

Foundations - Mathematical models.

EFFICIENT SOLUTION METHODS FOR NONLINEAR FINITE ELEMENT ANALYSIS (DESIGN, GEOMETRIC MATERIAL, POST-BUCKLING, STRUCTURAL, MECHANICS, NUMERICAL).

KOLAR, RAMESH.

January 1984

Solution algorithms are developed for the nonlinear finite element equations, resulting from the discretization of governing incremental equations of equilibrium. The equations of equilibrium in the total Lagrangian formation are derived, based on continuum mechanics principles and by invoking the principle of virtual work. A general purpose computer program, modular in structure, and interactive in nature, is developed, based on the theoretical formulation presented. A brief review of some of the existing solution algorithms for nonlinear structural analysis using the finite element formulation is presented. Arc-length methods, which facilitate the tracing of the load-configuration path beyond limit points, are systematically examined. Specific emphasis is focussed on obtaining the complete structural response in an efficient and reliable way. The arc-length methods treat the load parameter as a variable in addition to the unknown displacements. A constraint equation forms the supplemental equation for the determination of the additional variable. Attention is directed to the constraint equation, comprising the displacements and loads. Realising that the loads and displacements have different magnitudes, several authors had addressed the issue of including a scaling parameter, however, inadequately. In this research, several well formulated automatic means of computing the scaling parameter are suggested. A constant scaling parameter, which remains unchanged throughout all the load steps, and a variable scaling parameter, which is recalculated at each load step are introduced. The latter parameter is related to the current stiffness parameter. In the present investigation, the spherical constraint, the normal plane constraint and the updated normal plane constraint equations are examined with the proposed scaling parameters. An automatic load step calculation, based on the arc-length is suggested. The load step is rendered adaptive by including the load term with the scaling parameter in the constraint equation. Examples from large displacement problems, that exhibit severe geometric nonlinearities, are included to evaluate the proposed algorithms and substantiate their efficacies in tracing the complete load-configuration path. The relative performances of the proposed algorithms reveal their cost-effectiveness.

Implementation of automated multilevel substructuring for frequency response analysis of structures

Kaplan, Matthew Frederick

21 March 2011

Not available / text

Structural dynamics

Structural analysis (Engineering)

Frequency response (Dynamics)

Pattern solver for the static and dynamic analysis of frameworkmodels

Falzon, Christopher.

January 1985

published_or_final_version / Civil Engineering / Master / Master of Philosophy

Structural frames - Models.

The U-transformation and the Hamiltonian techniques for the finite strip method

李鷹, Li, Ying.

January 1996

published_or_final_version / Civil and Structural Engineering / Doctoral / Doctor of Philosophy

Structural analysis (Engineering)

Unitary transformations.

Hamiltonian systems.

Finite strip method.

Spline finite strip in structural analysis

范壽昌, Fan, S. C.

January 1982

published_or_final_version / Civil Engineering / Doctoral / Doctor of Philosophy

Structural analysis (Engineering)

Elastic plates and shells.

Finite element method.

Analysis of plate-type structures by finite strip, finite prism and finite layer methods

江傑新, Kong, Jackson.

January 1994

published_or_final_version / Civil and Structural Engineering / Doctoral / Doctor of Philosophy

Structural analysis (Engineering)

Plates (Engineering)

Finite strip method.

Ανάλυση του τεκτονικού ράκους Γερόλεκα (ζώνη Βοιωτίας - ζώνη Παρνασσού)

Βαϊδάνη, Αργυρώ

12 March 2015

Στην παρούσα εργασία γίνεται χαρτογράφηση και τεκτονική ανάλυση του τεκτονικού ράκους του Γερόλεκα όπου παρατίθενται πετρώματα της Ζώνης Παρνασσού και της Ζώνης Βοιωτίας. / On this bachelor thesis we present the results of geological mapping and structural analysis that was elaborated in the area of Gerolekas which is occupied by rocks of Parnassos Zone.

Τεκτονική ανάλυση

551.8

Structural analysis

Parnassos zone