Martin Dressler scite author profile

Wood, due to its biological origin, has the capacity to interact with water. Sorption/desorption of moisture is accompanied with swelling/shrinkage and softening/hardening of its stiffness. The correct prediction of the behavior of wood components undergoing environmental loading requires that the moisture behavior and mechanical behavior of wood are considered in a coupled manner. We propose a comprehensive framework using a fully coupled poromechanical approach, where its multiscale implementation provides the capacity to take into account, directly, the exact geometry of the wood cellular structure, using computational homogenization. A hierarchical model is used to take into account the subcellular composite-like organization of the material. Such advanced modeling requires high resolution experimental data for the appropriate determination of inputs and for its validation. High-resolution x-ray tomography, digital image correlation, and neutron imaging are presented as valuable methods to provide the required information

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Aluminum speciation and thermal evolution of aluminas resulting from modified Yoldas sols

Dressler

Nofz

Malz

et al. 2007

Journal of Solid State Chemistry

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Martin Dressler

Transport on Riemannian Manifold for Functional Connectivity-Based Classification

Influence of gelatin coatings on compressive strength of porous hydroxyapatite ceramics

The role of water in the behavior of wood

Aluminum speciation and thermal evolution of aluminas resulting from modified Yoldas sols

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