Modelling the Material Resistance of Wood-Part 1: Utilizing Durability Test Data Based on Different Reference Wood Species

Article Forestry

Modelling the Material Resistance of Wood-Part 2: Validation and Optimization of the Meyer-Veltrup Model

Christian Brischke et al.

Summary: The study aimed to validate and optimize a resistance model for a wider range of wood species, including very durable species, thermally and chemically modified wood, and preservative treated wood. The expanded durability range and use of diverse data sources led to a decrease in the predictive power of the model compared to the original.

FORESTS (2021)

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Article Forestry

Modelling the Material Resistance of Wood-Part 3: Relative Resistance in above- and in-Ground Situations-Results of a Global Survey

Christian Brischke et al.

Summary: This study focused on durability-based designs with timber and utilized a material resistance model to predict decay rates in above-ground situations. The research surveyed laboratory and field test data globally to establish material-specific resistance dose values and adapt the model to in-ground exposure. The study demonstrated the relationship between decay rates in- and above-ground, the predictive power of laboratory indicators, and a method for incorporating these findings into a service life prediction tool.

FORESTS (2021)

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Article Forestry