@misc{https://doi.org/10.4121/uuid:45d11acd-3906-4474-ace4-e1073b45b8d2,
  doi = {10.4121/uuid:45d11acd-3906-4474-ace4-e1073b45b8d2},
  url = {https://data.4tu.nl/articles/dataset/Data_presented_in_the_paper_Micromechanics-based_surrogate_models_for_the_response_of_composites_A_critical_comparison_between_a_classical_mesoscale_constitutive_model_hyper-reduction_and_neural_networks_/12693062/1},
  author = {Barcelos Carneiro M Da R, Iuri and Kerfriden, P. (Pierre) and van der Meer, Frans},
  keywords = {Artificial neural networks, Hyper-reduction, Laminated composites, Reduced-order modeling},
  title = {Data presented in the paper: "Micromechanics-based surrogate models for the response of composites: A critical comparison between a classical mesoscale constitutive model, hyper-reduction and neural networks"},
  publisher = {4TU.Centre for Research Data},
  year = {2020},
  copyright = {CC BY 4.0},
}