Isogeometric shell elements for fiber reinforced composites

January 30, 2020

Computer Methods in Applied Mechanics and Engineering, Vol. 362, pp. 112845:1-34, 2020.

A second gradient theory for woven fabrics is applied to Kirchhoff–Love shell elements to analyze the mechanics of fiber reinforced composite materials. In particular, we assume a continuous distribution of the fibers embedded into the shell surface, accounting for additional in-plane flexural resistances within the hyperelastic regime. For the finite element discretization we apply isogeometric methods, i.e. we make use of B-splines as basis functions omitting the usage of mixed approaches. The higher gradient formulation of the fabric is verified by a series of numerical examples, followed by suitable validation steps using experimental measurements on organic sheets. A final example using a non-flat reference geometry demonstrates the capabilities of the presented formulation.

Link

Attachments

Author

This image shows Simon R. Eugster

Simon R. Eugster

Dr. sc. ETH
To the top of the page