Micromechanics of composites/Average stress in a RVE

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Average Stress in a RVE[edit | edit source]

Let the average stress in the RVE be defined as

where is the volume of .

We would like to find out the relation between the average stress in a RVE and the applied tractions on the boundary of the RVE. To do that, recall the relation (see Appendix)

If we choose such that , we have

Therefore,

If we choose to be the stress tensor , and involve the symmetry of the stress tensor, we get

Now, the divergence of the stress is zero (from the conservation of linear momentum). Therefore,

Using the traction boundary condition, we have

Now if . Therefore, we have

Hence the average stress is given by

This implies that the average stress is completely determined by the applied tractions!

Symmetry of the average stress and the effect of rigid body translation[edit | edit source]

Let us now assume that the applied tractions are self equilibrating. Then the resultant forces and moments due to the applied tractions vanish and we have

From the moment balance equation above we can show that (see Appendix)

Therefore the average stress tensor is symmetric if the applied tractions are self equilibrated.

Now, if we translate the body by a constant amount (rigid body translation), we get

or

Therefore, the average stress is not affected by a rigid body translation only if the applied tractions are self equilibrated.

We can conclude that the average stress is an acceptable measure of stress in a RVE if the applied tractions are self equilibrated.