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Gzip Archive - 1.1 MB -
MD5: a791af8963661dcdea89ad4be1c70b54
This archive contains an example of how to use the model. The example consists on the analysis presented using the Database B (see Section 8.1 in the dissertation). |
Markdown Text - 1.8 KB -
MD5: 82938a52bd5d16fdaa0314ba5a065a3b
Instructions to install additional python dependencies in the Abaqus 2017 environment. This is required to run the model. |
Gzip Archive - 2.8 KB -
MD5: cb1118a3202e9ebeed01a1c03c302ed2
Python package that defines functions used for the post-processing of the results obtained from the stochastic finite element simulations for the bending strength of glulam. |
Gzip Archive - 27.2 KB -
MD5: c93205c9765da863821fed1211f08bb1
Python package that defines classes and functions to run the Montecarlo finite element simulations of the glulam model. |
Gzip Archive - 10.5 KB -
MD5: 14890e3b6e92602029d4a3a89299d0a6
Python package that defines classes and functions used to generate the material properties used in the stochastic finite element simulations. |
Gzip Archive - 6.7 KB -
MD5: 3bae0638a308abb9278f9d67ab85ad78
This archive contains the material model used to describe the softening behavior and a test simulation run with a single finite element. Run the test with `make tests`.
The fortran compiler must be correctly configured in Abaqus in order to compile the user subroutine. If you us... |