Several manufacturers have started developing sustainable products with high energy-efficiency owing to the implementation of environmental regulations in the building & construction sector in North America and Europe. In developed regions such as North America and Europe, emissions from buildings and their proportion of total emissions have been steadily increasing over the last few years. Rise in number of environmental regulations regarding the emission of carbon dioxide is fuelling the demand for engineered wood.Rise in Demand for Sustainable Building Products Furthermore, it exhibits higher resistance to temperature variation and moisture. Engineered wood can be designed as per the demand and custom specifications of end-users.The usage of engineered wood in construction applications results in lower waste formation. It is an eco-friendly option for building and construction applications, as it is made up of recycled wood. Engineered wood can be made by utilizing waste such as saw mill waste, rice straw, sugarcane bagasse, wheat straw, and other wood wastes.Major end-users of engineered wood include construction developers, architects, and designers. Engineered wood is being increasingly used instead of steel beams in various building projects.It can act as a substitute for hard wood and concrete in building and construction applications.
Engineered wood is composite wood made by binding various components such as strands, fibers, and particles with suitable adhesives.Engineered Wood Market: Eco-friendly option for Building & Construction Applications Constant focus on performance enhancement is expanding the potential of the engineered wood market. Oil-borne preservative systems have been gathering steam among manufacturers due to their environmental friendliness. Numerous new trends have been shaping the contours of the engineered wood market. A key part of such pursuits is advancing the troika of performance, durability, and service life. The search for novel engineered biocomposites is opening new doors to promising revenue streams for market players. However over the past few years, advances made in bio-fiber composite technologies have expanded the type of bio-fiber feedstocks used for making engineered wood of attractive properties. The market for engineered wood is relatively new and there are relatively few array of products with desired mechanical and chemical properties. The ease of installation is a key aspect bolstering their use in variety of home furnishings. Advances being made in engineering methods for hardwood are expanding the options for end users in terms of surface finish, durability, and style ranges. The easy care and maintenance of engineered woods make them lucrative for the making of kitchen cabinet, for instance. Strides made in the building and construction industry have been reinforcing the demands for new construction materials especially for residential applications. The applications have been thus been on the path of rapid expansion, especially for house floorings and furniture. The compelling propositions on which business players in the engineered wood market pivot their hopes on are their lower cost and quality. Industry players are focusing on improving the profile of engineered wood and make it at least as good as solid natural wood, if not better. The engineered wood market is witnessing great strides on the back of advancing science of composites-wood composite technology.
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