MultiScale Composites | Joris Remmers

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(Börjesson et al., 2022) (Börjesson et al., 2022) (Börjesson et al., 2024) (Börjesson et al., 2023) (Adams et al., 2020) (Börjesson, 2024)

Project	Multiscale modelling of failure in thin-ply textile composites using Isogeometric Analysis
Funding	Swedish Research Council through Grant \no{2018–05345} / Swedish Innovation Programme LIGHTer
Years	2019-20234
PhD-candidate	Elias Borjesson
Supervisors	Martin Fagerstr"om, Fredrik Larsson (both Chalmers), J.J.C. Remmers
Collaborators	Chalmers University of Technology (coordinator)

References

2024

Meso-scale modelling of complex fibre composite geometries using an immersed boundary method

E. Börjesson, C.V. Verhoosel, J.J.C. Remmers, and M. Fagerström

Finite Elements in Analysis and Design, May 2024

DOI Bib

@article{Borjesson2024,
  author = {B{\"o}rjesson, E. and Verhoosel, C.V. and Remmers, J.J.C. and Fagerstr{\"o}m, M.},
  title = {Meso-scale modelling of complex fibre composite geometries using an immersed boundary method},
  journal = {Finite Elements in Analysis and Design},
  volume = {242},
  pages = {104262},
  year = {2024},
  doi = {10.1016/j.finel.2024.104262}
}

Numerical methods for multiscale modelling of fibre composites

Elias Börjesson

Chalmers University of Technology, May 2024

M. Fagerström (Promotor), J.J.C. Remmers (Co-promotor)

2023

Variationally consistent homogenisation of plates

E. Börjesson, F. Larsson, K. Runesson, J.J.C. Remmers, and M. Fagerström

Computer Methods in Applied Mechanics and Engineering, May 2023

DOI Bib

@article{BorjessonHomog2023,
  author = {B{\"o}rjesson, E. and Larsson, F. and Runesson, K. and Remmers, J.J.C. and Fagerstr{\"o}m, M.},
  title = {Variationally consistent homogenisation of plates},
  journal = {Computer Methods in Applied Mechanics and Engineering},
  volume = {413},
  pages = {116094},
  year = {2023},
  doi = {10.1016/j.cma.2023.116094}
}

2022

A generalised path-following solver for robust analysis of material failure

E. Börjesson, J.J.C. Remmers, and M. Fagerström

Computational Mechanics, May 2022

DOI
An adaptive isogeometric shell element for the prediction of initiation and growth of multiple delaminations in curved composite structures

E. Börjesson, J.J.C. Remmers, and M. Fagerström

Composites Structures, May 2022

DOI

2020

Efficient modelling of delamination growth using adaptive isogeometric continuum shell elements

C. Adams, M. Fagerström, and J.J.C. Remmers

Computational Mechanics, May 2020

DOI