Jonas Heidemann Sjølund scite author profile

A cohesive finite element implemented as a user programmable feature (UPF) in ANSYS Mechanical is presented. Non-standard post-processing capabilities compared to current available cohesive elements in commercial finite element software packages have been defined and implemented. A description of the element formulation and the post-processing options are provided. Simulation studies are presented which serves to verify the implementation and compare the performance to ANSYS INTER205 cohesive element. The results show that the implemented element performs better in terms of ability to converge to a solution and requires fewer iterations to converge in the incremental Newton-Raphson solution procedure used. Additionally, a sensitivity study about the typical remedy to obtain convergent solutions having coarse meshes by lowering the onset traction is conducted. The study brings new insight to the effect of lowering the onset traction and recommendations of practical usage in case of coarse meshes are outlined.

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Discrete Material and Thickness Optimization of sandwich structures

Sjølund

Peeters

Lund

2019

Composite Structures

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A new thickness parameterization for Discrete Material and Thickness Optimization

Sjølund

Peeters

Lund

2018

Struct Multidisc Optim

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Structural gradient based sizing optimization of wind turbine blades with fixed outer geometry

Sjølund

Lund

2018

Composite Structures

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Structural Optimization of Wind Turbine Blades

Sjølund¹

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