The term wood plastic composite (WP

The term wood plastic composite (WPC) refers to any composite material that contains wood and thermoplastics. WPC products have commonly substituted for solid wood in today’s building structures over the last decade (Ashori et al., 2013). The objective of WPC development is to produce a product with performance characteristics that combine the positive attributes of wood and plastic. Significant advantages of WPC are their high durability and renewability, low maintenance, acceptable relative strength and stiffness, less abrasive wear to processing equipment, environmental friendly, and similar as wood feature (El-Haggar and Kamel, 2011 and San et al., 2008).

Wood decay is a deterioration of wood by primarily enzymatic activities of microorganisms (Srivastava et al., 2013). Brown-rot decay is the most common and most destructive type of decay of wood in use. The most serious kind of microbiological deterioration of wood is caused by fungi because they can cause rapid structural failure (Green III and Highley, 1997). Brown-rot fungi destroy wood by selectively degrading the hemicelluloses and cellulose (holocellulose) without extensively changing the lignin (Flournoy et al., 1991). Because of the attack on hemicellulose and cellulose, the strength properties of brown-rot decayed wood decrease quickly, even in the early stages (Rowell, 2012). The lignin component also presents a barrier to wood decay because lignin is a complex aromatic polymer that encrusts the cell walls, preventing access of enzymes to the more easily degradable cellulose and hemicelluloses (Green III and Highley, 1997). The removal of lignin as a hydrophobic component tends to favor an increased water absorption and thickness swelling of WPCs (Kord and Hosseinihashemi, 2014). Previous studies reported water absorption and thickness swelling of lignocellulosic filled polypropylene composites increased with growing time of exposure to the brown-rot fungi (Kord and Hosseinihashemi, 2014 and Hosseinihashemi et al., 2011).

Many countries face the problem of lack of woody raw material in wood composite industry since most of their forested areas are unproductive. WPC industry has been rapidly increased in many countries in last decade. Growing demand for WPCs in building industry has led to continuous efforts to find new lignocellulosic resources. Sound wood is used in the production of wood-based panels such as particleboard and fiberboard while decayed wood has no economic value. This was because the chips produced from decayed wood are highly undesired, due to reduced yield of pulp and its diminished quality. Moreover, wood powder or fines is obtained from the decayed wood instead of particles with uniform size and shape during the chipping process. For this reason, wood decayed by fungi is not desirable raw material for wood-based panel industry. The decayed wood is usually used as firewood. However, the decayed wood may play an important role as filler for thermoplastic composite industry. Use of inexpensive alternative sources of sound wood is important for the long-term sustainability of the WPC industry. Therefore, WPC industry may be the most efficient industry to use decayed wood.

Although there have been a number of studies concerning the utilization of sound wood flour in WPC (Ayrilmis and Jarusombuti, 2011, Ayrilmis et al., 2011, Ayrilmis and Kaymakci, 2013, Bajwa et al., 2011 and Bazant et al., 2014), the potential use of decayed wood in the production of WPC has not been studied yet in the literature. The main objective of this study was to investigate mechanical and thermal properties of WPCs produced from different amounts of decayed wood flour and polypropylene with coupling agent and compare with the properties of the WPC panels containing the sound wood.