Finite Element Analysis - ANSYS (preferred)

İptal Edildi İlan edilme: May 30, 2011 Teslim sırasında ödenir
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I am open for suggestions. I prefer use of ANSYS a combination of work bench and command lines. However, I am open to suggestions. This can be done by Ansys APDL.

The model:

A cylindrical composite shaped part. The composite cylinder (part) is made up of more than one body (each is cylindrical). Let's say we have a cylinder made up of different materials each layer is cylindrical shaped. The core layer is made up of steel and it is cylinder with radius=r0. A piezo layer covers this steel core. The piezo layer is a hollow cylinder surrounding the core and has a radius of r=r1 and of course inner radius r0. A third layer that cover the piezo. Again this layer is a hollow cylinder with both the piezo and core filling it. This layer has a radius r2 and of course an inner radius of r1.

The problem:

This is a forced vibration problem. I will be appling different loads and/or volt with different frequencies.

The piezoelectric layer will act as an actuator or sensor.

The cylinder will be fixed at its axis (center). Fixed displacement at axis.

The analysis:

Measure radial stress, shear stress on curved surfaces (r-theta shear stresses)

Initial attempts:

I have created two ANSYS project files representing my problem of study. The problem is a cylindrical shaped part consisting of three different bodies. One of these bodies is made up of Piezo material. The problem is symmetric for now. Therefore I modeled only quarter the geometry.

I tried to input the piezo command lines (piezo dielect and stress). However, it does not work (2D layer workbench project) or it works but not properly (3d-quart workbench project).

Tasks:

1) How to input piezo material properties properly? How to align them with the correct directions? How to change polarization if desired? (I have placed some commands under the piezo body as to change element type)

2) How to use the model as an actuator? (Apply electric-volt and receive mechanical-stress/strain) What are the exact additional command lines (I have placed some command lines)?

3)How to use the model as a sensor? (Apply mechanical-stress/strain and receive electric-volt) What are the exact additional command lines?

4) How to measure radial stress, shear stress on curved surfaces (r-theta shear stresses)

## Deliverables

I am attaching ansys (preferred FEA analysis software) files. However I am open to suggestions.

I have described the model but to help you visualize it. The cross section of the cylinder is made up of 3 circles. The core circle represents the core material. The 2nd and 3rd represent the piezoelectric and the outer layer.

The model is a cylinder part made up of 3 bodies.

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