Finite-Element Modelling of Nonlinear Behaviour of the Middle Ear (20 of 41)

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Finite-Element Modelling of<br> Nonlinear Behaviour of the Middle Ear

1. Outline

2. Nonlinear behaviour of the middle ear

2. Nonlinear behaviour of the middle ear (cont'd)

2. Nonlinear behaviour of the middle ear (cont'd)

3.1 Stuhlman (1937)

3.2 Stuhmiller (1989)

3.3 Price & Kalb (1991)

3.4 Chen (1993)

3.5 Wada & Kobayashi (1990)

3.6 Pascal <em>et al.</em> (1998)

4.1 What?

4.2 Why?

4.3.1 Choice of element geometry

4.3.2.1 Type of problem

4.3.2.2 Assumptions about mechanical behaviour

4.3.2.3 Material laws

4.3.2.4 Methods for formulation

4.3.3 Mesh generation

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4.3.5.1 Linear calculation of static responses

4.3.5.2 Natural frequencies and modes

4.3.5.3 Time-domain responses and frequency responses

4.3.6 Testing for convergence

5. Nonlinear finite-element modelling

5.1 Solution methods

5.1 Solution methods (cont'd)

5.2 Sources of nonlinearity

6. Nonlinear behaviour of tissues

6. Nonlinear behaviour of tissues (cont'd)

6.1 Bone

6.2 Soft tissues

6.2.1 Hysteresis

6.2.2 Preconditioning

6.2.3 Rate dependence

6.2.4 Creep and relaxation

7. Example

7. Example (cont'd)

8.3 Free

9. Acknowledgements

10. References

4.3.4 Specification of material properties

To take advantage of the power of the finite-element method, one should have a priori information about the material properties, rather than just adjusting parameters to fit particular experimental results.

The only explicit measurements of middle-ear material properties are those for the eardrum by Békésy (1949), Kirikae (1960) and Decraemer (1980).

Values can be estimated from measurements in ‘similar’ tissues elsewhere in the body.

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