Modelling of impact behaviour of European beech subjected to split Hopkinson pressure bar test

journal article in Web of Science

English

The hardwood, as a natural composite, may be subjected to the dynamic loading in many applications, such as the high-speed disintegration or structural collapses. The correct material description is needed for finite element modelling that can take place in the design stages of wood manufacturing processes or building the wooden structures. The split Hopkinson pressure (Kolsky) bar test provides the data for high strain rates. The experiments were carried out on the European beech wood in all the principal loading directions. The tests were repeated computationally in order to obtain the material constants of the complex material model, which covered the anisotropy of elasticity, plasticity as well as fracture behaviour. Moreover, the failure was considered non-symmetric with respect to the tension and compression. This was achieved by incorporating the stress triaxiality dependency into the failure model. The crack initiation and propagation were realized through the element deletion technique within LS-DYNA code. The real behaviour was captured quite well including the pulses in the incident and transmission bars.

Explicit code; Elastic wave propagation; Shock wave; Blast loading; Cellular material; Crashworthiness

ŠEBEK, F.; KUBÍK, P.; BRABEC, M.; TIPPNER, J.

1. 8. 2020

0263-8223

COMPOSITE STRUCTURES

245

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United Kingdom of Great Britain and Northern Ireland

1

11

11

https://www.sciencedirect.com/science/article/pii/S0263822320302245