Analysis of volumetric swelling and shrinkage of heat treated woods: Experimental and artificial neural network modeling approach

• Published in: Maderas Vol. 18; no. ahead; pp. 477 - 492
• Main Authors: Tiryaki, Sebahattin, Bardak, Selahattin, Aydin, Aytac, Nemli, Gökay
• Format: Journal Article
• Language: English; Portuguese
• Published: Universidad del Bío-Bío 2016
• Subjects: Dimensional stability; heat treatment; hygroscopicity; MATERIALS SCIENCE, PAPER & WOOD; neural network; swelling; wood properties; heat treatment; swelling; Dimensional stability; hygroscopicity; neural network; wood properties
• ISSN: 0718-221X; 0717-3644; 0718-221X
• DOI: 10.4067/S0718-221X2016005000043

Shrinkage and swelling characteristics of wood as a hygroscopic material affect negatively its effective utilization for a variety of applications. Heat treatment is widely used for minimizing the negative effects of volumetric swelling and shrinkage of wood. The present study aims to develop artificial neural network (ANN) models for predicting volumetric swelling and shrinkage of heat treated woods. For this purpose, wood samples were subjected to heat treatment at varying temperatures (130, 150, 170 and 190 ºC) for varying durations (2, 4, 6 and 8 h). Experimental results have showed that volumetric swelling and shrinkage of wood decreased by heat treatment. Then, neural networks models capable of predicting the swelling and shrinkage of the treated woods were developed based on the resulting data. It was seen that ANN models allowed volumetric swelling and shrinkage of such woods to predict successfully with a limited set of experimental data. This approach was able to predict volumetric swelling and shrinkage of wood with a mean absolute percentage error equal to 2,599% and 2,647% in test phase, respectively. The developed models might thus serve as a robust tool to predict volumetric swelling and shrinkage with less number of experiments.