- References
The Ogden–Roxburgh model[1] is an approach which extends hyperelastic material models to allow for the Mullins effect. It is used in several commercial finite element codes, and is named for R.W. Ogden and D. G. Roxburgh.
The basis of pseudo-elastic material models is a hyperelastic second Piola–Kirchhoff stress 
, which is derived from a suitable strain energy density function 
:
The key idea of pseudo-elastic material models is that the stress during the first loading process is equal to the basic stress . Upon unloading and reloading is multiplied by a positive softening function 
. The function thereby depends on the strain energy of the current load and its maximum 
in the history of the material:
It was shown that this idea can also be used to extend arbitrary inelastic material models for softening effects.[2]
References
2. ^{{cite journal|last=Naumann|first=C.|author2=Ihlemann, J.|title=On the thermodynamics of pseudo-elastic material models which reproduce the Mullins effect|journal=International Journal of Solids and Structures|year=2015|volume=69–70|pages=360–369|doi=10.1016/j.ijsolstr.2015.05.014}}
- L. Mullins, Rubber Chemistry and Technology, 42, 339 (1969).
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