DG20RNAK - Nonlinear analysis of structures
| Course specification | ||||
|---|---|---|---|---|
| Type of study | Doctoral studies | |||
| Study programme | ||||
| Course title | Nonlinear analysis of structures | |||
| Acronym | Status | Semester | Number of classes | ECTS |
| DG20RNAK | elective | 2 | 4L + E | 10.0 |
| Lecturers | ||||
| Lecturer | ||||
| Lecturer/Associate (practicals) | ||||
| Prerequisite | Form of prerequisites | |||
| - | ||||
| Learning objectives | ||||
| To understand fundamental mathematical and mechanical formulations of the nonlinear structural analysis. | ||||
| Learning outcomes | ||||
| Student is able to independently create and analyze geometrically and materially nonlinear models of continua and structures. | ||||
| Content | ||||
| Introduction to the nonlinear analysis. Sources of nonlinear behavior of structures. Lagrange and Euler description of displacement. Lagrangian finite one-dimensional elements - description of deformation and stress fields. Geometric nonlinearity of structures - Total Langrangian and Updated Langrangian. Formulation of geometrically nonlinear problems - nonlinear analysis of beams and shells. Bifurcation stability of beams and shells. Procedures for solving nonlinear equations (Newton-Rapson, modified Newton-Rapson, Arc length method). Review of models for the analysis of material nonlinearity (nonlinear elasticity, one - dimensional plasticity, multiaxial plasticity, viscoelasticity ...). Solution procedures and stability of a solution. | ||||
| Teaching Methods | ||||
| Auditory lectures and individual work with students | ||||
| Literature | ||||
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| Evaluation and grading | ||||
| Calculation and defence of the semestral assignment (50%) Oral exam (50%) | ||||
| Specific remarks | ||||
| The course can be conducted in English. | ||||