Timber densification is a process wherein various parameters can affect the physical and mechanical properties of the final product. Therefore, it is vital to understand the effects of these parameters to fully exploit the benefits of densification such as improved density, stiffness, and strength. The purpose of this study is to improve on the mechanical properties of Radiata pine (Pinus radiata) and to determine the influence of the process parameters. The densification process and the bending properties of the densified timber were investigated using a fractional factorial experimental design to determine the influence of various parameters (compression ratio, moisture content, compression temperature, heating time, setting temperature, and setting time) on the final product. Among the six process parameters, the compression ratio was the most significant factor with respect to bending properties of the densified timber, while the effect of the other parameters does not show a specific trend with respect to the load–displacement behaviour of the test specimens. A predictive model has been proposed herein to determine the properties of densified timber based on a reduced number of process parameters, with examples based on different design applications.
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