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In continuum mechanics, the most commonly used measure of stress is the Cauchy stress tensor, often called simply the stress tensor or "true stress". However, several alternative measures of stress can be defined:[1][2][3]
The first Piola–Kirchhoff stress (). This stress tensor is the transpose of the nominal stress ().
The second Piola–Kirchhoff stress or PK2 stress ().
The Biot stress ()
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Solid Mechanics | Theory | Stress Measures (Deviatoric, von Mises, Tresca, etc.)
Lec 24: Decomposition of Stress - 2, Objective Stress Measures
Lec 22: Work Conjugacy, First Piola-Kirchhoff Stress Tensor
Should we get rid of standardized testing? - Arlo Kempf
TEST YOUR STRESS LEVEL
Transcription
Definitions
Consider the situation shown in the following figure. The following definitions use the notations shown in the figure.
In the reference configuration , the outward normal to a surface element is and the traction acting on that surface (assuming it deforms like a generic vector belonging to the deformation) is leading to a force vector . In the deformed configuration , the surface element changes to with outward normal and traction vector leading to a force . Note that this surface can either be a hypothetical cut inside the body or an actual surface. The quantity is the deformation gradient tensor, is its determinant.
Cauchy stress
The Cauchy stress (or true stress) is a measure of the force acting on an element of area in the deformed configuration. This tensor is symmetric and is defined via
or
where is the traction and is the normal to the surface on which the traction acts.
Kirchhoff stress
The quantity,
is called the Kirchhoff stress tensor, with the determinant of . It is used widely in numerical algorithms in metal plasticity (where there
is no change in volume during plastic deformation). It can be called weighted Cauchy stress tensor as well.
The nominal stress is the transpose of the first Piola–Kirchhoff stress (PK1 stress, also called engineering stress) and is defined via
or
This stress is unsymmetric and is a two-point tensor like the deformation gradient.
The asymmetry derives from the fact that, as a tensor, it has one index attached to the reference configuration and one to the deformed configuration.[4]
Second Piola–Kirchhoff stress
If we pull back to the reference configuration we obtain the traction acting on that surface before the deformation assuming it behaves like a generic vector belonging to the deformation. In particular we have
or,
The PK2 stress () is symmetric and is defined via the relation
Therefore,
Biot stress
The Biot stress is useful because it is energy conjugate to the right stretch tensor. The Biot stress is defined as the symmetric part of the tensor where is the rotation tensor obtained from a polar decomposition of the deformation gradient. Therefore, the Biot stress tensor is defined as
The Biot stress is also called the Jaumann stress.
The quantity does not have any physical interpretation. However, the unsymmetrized Biot stress has the interpretation
Relations
Relations between Cauchy stress and nominal stress
From Nanson's formula relating areas in the reference and deformed configurations:
Now,
Hence,
or,
or,
In index notation,
Therefore,
Note that and are (generally) not symmetric because is (generally) not symmetric.
Relations between nominal stress and second P–K stress
Recall that
and
Therefore,
or (using the symmetry of ),
In index notation,
Alternatively, we can write
Relations between Cauchy stress and second P–K stress
Recall that
In terms of the 2nd PK stress, we have
Therefore,
In index notation,
Since the Cauchy stress (and hence the Kirchhoff stress) is symmetric, the 2nd PK stress is also symmetric.