Fracture Toughness of Fibrous Membranes

Authors

  • C. T. Koh
  • M. L. Oyen

Abstract

Random fibrous networks exist in both natural biological and engineering materials. While the nonlinear deformation of fibrous networks has been extensively studied, the understanding of their fracture behaviour is still incomplete. To study the fracture toughness of fibrous materials, the near-tip region is crucial because failure mechanisms such as fibril rupture occur in this region. The consideration of this region in fracture studies is, however, a difficult task because it involves microscopic mechanical responses at a small length scale. This paper extends our previous finite element analysis by incorporating the microscopic responses into a macroscopic domain by using a submodeling technique. The detailed study of microstructures at crack tips show a stochastic toughness of membranes due to the random nature of fibrous networks. Further, the sizes of crack tip region, which are sufficient to provide a reasonable prediction of fracture behaviour in a specific type of fibrous network, were presented. Future work includes improving the current linear assumption in the macroscopic models to become nonlinear.

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Published

2019-07-04

How to Cite

Koh, C. T. and Oyen, M. L. (2019) “Fracture Toughness of Fibrous Membranes”, Technische Mechanik - European Journal of Engineering Mechanics, 32(2-5), pp. 333–341. Available at: https://journals.ub.ovgu.de/index.php/techmech/article/view/727 (Accessed: 29 March 2024).

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