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In #62 we introduced a stopgap design that enables us to implement hyperelastic materials in terms of $\nabla u$ without forming $\vec F$ first. This allows us to avoid the loss of accuracy inherent in forming $\vec F$ when $\nabla u$ is small. However, this design is quite clunky. Long term we might want to always represent hyperelastic materials by displacement gradient $\nabla u$ instead of the deformation gradient $F$. This requires some effort in porting all the materials, and especially in rewriting them to use more numerically stable implementations.
The text was updated successfully, but these errors were encountered:
In #62 we introduced a stopgap design that enables us to implement hyperelastic materials in terms of$\nabla u$ without forming $\vec F$ first. This allows us to avoid the loss of accuracy inherent in forming $\vec F$ when $\nabla u$ is small. However, this design is quite clunky. Long term we might want to always represent hyperelastic materials by displacement gradient $\nabla u$ instead of the deformation gradient $F$ . This requires some effort in porting all the materials, and especially in rewriting them to use more numerically stable implementations.
The text was updated successfully, but these errors were encountered: