Failure mechanisms in wood-based materials: A review of discrete, continuum, and hybrid finite-element representations
Smith, I. S., Asiz, M. and Vasic, A.
2007 HOLZFORSCHUNG, VOL 61; ISSU 4, pages 352-359
Smith, I. S., Asiz, M. and Vasic, A., (2007), "Failure mechanisms in wood-based materials: A review of discrete, continuum, and hybrid finite-element representations", HOLZFORSCHUNG, VOL 61; ISSU 4, pages 352-359.
Abstract:
Challenges arise in finite element (FE) analyses that predict mechanical failure in wood-based materials because their structural complexity is difficult to mimic. When considered at the macro scale, wood and engineered wood composites can reasonably be assumed to behave as homogenous continua. However, accurate meso- and micro-scale representations require a different approach. Models employing discrete FEs are robust tools for detailed failure analysis, because the elements can be made to mimic the functions of morphological structures in the material. Hybrid models that meld continuum and discrete FEs also show good promise as generalised analysis tools, but as yet their development is in its infancy. In the future, beyond mechanical damage, other energy sinks also need to be included in models, and computational efficiency should be improved. In this overview, the advantages and limitations of alternative FE representations are demonstrated in terms of failure processes in wood-based materials via case analyses.