Content (Syllabus outline)
- Wood - an environmentally friendly material.
- Wood as hetero-capillary system with a typical composite structure at the macromolecular, submicroscopic, microscopic and macroscopic level.
- Density, porosity, and wood moisture content; phase equilibrium and phase changes.
- Sorption thermodynamics: enthalpy, entropy and Gibbs free enthalpy (energy) of free and bound water, wetting and heat of sorption (differential and integral); hydro expansion (swelling) pressure.
- Hydro expansion – hydro elastic effect and stress states.
- Thermal, electrical and acoustical characteristics of the wood - non-destructive study of wood structures and properties.
- Elasto mechanic properties of wood as an orthotropic material.
- Visco-elasticity of wood and stress relaxation in thermo-mechanical processes.
- Fracture mechanics of wood; linear elastic fracture mechanics (LEFM), Numerical and experimental characterization methods of wood.
- Strength of wood - a hierarchical structure of wood and characterization of mechanical properties, criteria for assessing the strength of timber - Methods for ultimate limit states and serviceability EC 5.
- Evaluation of the relevant properties of wood; variability of physical and mechanical properties of wood (in the tree, between trees, juvenile, adult wood, reaction wood).
Prerequisites
1. Entry in the corresponding year of the study programme.
2.
- Attendance at exercises and written report,
- colloquium from tutorials.