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MECH593 Introduction to Finite Element Methods

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Presentation on theme: "MECH593 Introduction to Finite Element Methods"— Presentation transcript:

1 MECH593 Introduction to Finite Element Methods
Nonlinear Problems Error and Convergence

2 Nonlinear Problems Types of nonlinearity in structural mechanics:
material nonlinearity: contact nonlinearity geometric nonlinearity Example: Weak form: Approximation:

3 Nonlinear Problems Example: Note: Kij depends on u!

4 Iterative Schemes Direct iterative method (successive-substitution method) Advantage: explicit method, easy to implement Disadvantages: (1) conditional convergence (2) slow convergence rate, at most linear Example:

5 Iterative Schemes Newton – Raphson (N-R) method Idea:
Advantage: If converges, the rate is quadratic. Disadvantages: Convergence is not guaranteed.

6 Nonlinear Problems Example: Weak form:

7 Bending of Euler-Bernouli Beam
Governing equations: Weak form:

8 Bending of Euler-Bernouli Beam
Approximation: Element equation:

9 Errors in FEM Types of errors: Discretization errors
number of elements domain approximation number of nodes per element the nature of shape functions integration rule, function evaluation methods Numerical errors round-off errors manipulation errors

10 Numerical Errors Ill-conditioning system: or is small, but is large
Example: P k1 k2

11 Measures of Errors “Sup-metric/ - norm”: “Energy norm”: “L2 norm”:
2m is the order of the differential equation being solved. “L2 norm”: Convergence and rate of convergence: p: rate of convergence

12 Improvement Approaches
h - refinement: h: element size p - refinement: p: the degree of the highest complete polynomial in the approximation of the field quantity r - refinement: r: rearrange Adaptive mesh refinement – error estimation

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