Upper convected time derivative
In continuum mechanics, including fluid dynamics, upper convected time derivative or Oldroyd derivative is the rate of change of some tensor property of a small parcel of fluid that is written in the coordinate system rotating and stretching with the fluid.
The operator is specified by the following formula: \[ \mathbf{A}^{\nabla} = \frac{D}{Dt} \mathbf{A} - (\nabla \mathbf{v})^T \cdot \mathbf{A} - \mathbf{A} \cdot (\nabla \mathbf{v}) \] where:
- \( \mathbf{A}^{\nabla} \) is the Upper convected time derivative of a tensor field \( \mathbf{A} \)
- \(\frac{D}{Dt}\) is the Substantive derivative
- \(\nabla \mathbf{v}=\frac {\partial v_j}{\partial x_i} \) is the tensor of velocity derivatives for the fluid.
The formula can be rewritten as:
\[ {A}^{\nabla}_{i,j} = \frac {\partial A_{i,j}} {\partial t} + v_k \frac {\partial A_{i,j}} {\partial x_k} - \frac {\partial v_i} {\partial x_k} A_{k,j} - \frac {\partial v_j} {\partial x_k} A_{i,k} \]
By definition the upper convected time derivative of the Finger tensor is always zero.
The upper convected derivatives is widely use in polymer rheology for the description of behavior of a visco-elastic fluid under large deformations.
Contents
Examples for the symmetric tensor A
Simple shear
For the case of simple shear: \[ \nabla \mathbf{v} = \begin{pmatrix} 0 & 0 & 0 \\ {\dot \gamma} & 0 & 0 \\ 0 & 0 & 0 \end{pmatrix} \]
Thus, \[ \mathbf{A}^{\nabla} = \frac{D}{Dt} \mathbf{A}-\dot \gamma \begin{pmatrix} 2 A_{12} & A_{22} & A_{23} \\ A_{22} & 0 & 0 \\ A_{23} & 0 & 0 \end{pmatrix} \]
Uniaxial extension of uncompressible fluid
In this case a material is stretched in the direction X and compresses in the direction s Y and Z, so to keep volume constant. The gradients of velocity are: \[ \nabla \mathbf{v} = \begin{pmatrix} \dot \epsilon & 0 & 0 \\ 0 & -\frac {\dot \epsilon} {2} & 0 \\ 0 & 0 & -\frac{\dot \epsilon} 2 \end{pmatrix} \]
Thus, \[ \mathbf{A}^{\nabla} = \frac{D}{Dt} \mathbf{A}-\frac {\dot \epsilon} 2 \begin{pmatrix} 4A_{11} & A_{12} & A_{13} \\ A_{12} & -2A_{22} & -2A_{23} \\ A_{13} & -2A_{23} & -2A_{33} \end{pmatrix} \]
See also
References
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