Palm trees are very fast-growing species. Their management produces annually a large amount of biomass that traditionally has been either disposed of at dumping sites or has been burnt onsite. This paper presents an experimental study to obtain particleboard using this biomass in a low energy process (short pressing time and low pressing temperature), using particles of different sizes from the rachis (midrib) of the three palm species most representative of urban gardening in Spain: canary palm (Phoenix canariensis hort. ex Chabaud), date palm (Phoenix dactylifera L.) and washingtonia palm (Washingtonia robusta H. Wendl). Their physical and mechanical properties were tested, and the feasibility of their use as a construction material was evaluated. The results showed that the manufactured particleboard had similar performance to conventional wood particleboard and good thermal insulation properties. Boards made with the canary species showed better mechanical performance. The properties of the particleboard depended on the particle size and species. The use of the pruning waste of palm trees to produce durable materials such as particleboard could be beneficial to the environment since it is a method of carbon fixation, helping to decrease atmospheric pollution and reducing the amount of waste that ends in dumping sites.
The raw materials used to manufacture thermal insulation in buildings consume a large amount of energy and are not generally biodegradable, which means it is necessary to increase the use of renewable, eco-friendly resources such as plant fibers in order to reduce the environmental problems this generates. The wood adhesives developed by the petrochemical industry offer excellent performance and are affordable. However, their use has an expiry date and in the future they will be rejected due to the environmental and health problems they can cause. The objective of this work was to develop a new eco-friendly biocomposite that could be used for thermal insulation in buildings. Boards were manufactured from giant reed particles with a particle size of 2 to 4 mm, using 5 and 10% by weight of citric acid as a natural binder. Experiments were then carried out to investigate the effect of board density on mechanical, physical, and thermal properties. A new type of composite was obtained with a thermal conductivity of 0.081-0.093 W/m K, which makes it suitable as an insulating material. The boards with a density of 850 kg/m 3 had a modulus of rupture (MOR) of 12.5 N/mm 2 , a modulus of elasticity (MOE) of 2440 N/mm 2 , and an internal bonding strength (IB) of 0.61 N/mm 2 , and they could be used as insulation panels for divisions and enclosures in buildings.life. When choosing a natural insulating material, several factors should be considered, such as its thermal performance, availability, cost, installation method and ecological impact.Studies have been carried out on the insulating properties of plant waste and fibers: coconut fiber [1], paper manufacturing waste and corn peel [2], kenaf fibers [3], cotton stalk fibers [4,5], coconut husk and bagasse [6], hemp fibers [7,8], date palm fibers and gypsum [9], flax [10], flax and hemp [11], rice straw [12], sisal [13], sugarcane bagasse [14], giant reed [15,16], Canary Islands palms [17], and Washingtonia palms [18].Giant reed (Arundo donax L.) was used as a building material in many Mediterranean countries. In the south of the province of Alicante it was used in all buildings up to the beginning of the 20th century, mainly forming part of the roof and floor. It continued to be used in small detached houses and farm buildings until the 1960s. More recently, it is no longer used, thus leading to excessive growth of this plant population along river banks. This poses a serious threat when the water level rises, as the reeds can be easily ripped up by the force of the waters and result in problems such as blockage of bridges and other infrastructures. Therefore, the use of giant reeds for industrial purposes would provide an environmental advantage.At present, most wood adhesives such as formaldehyde-based resins, vinyl acetate resins, and isocyanate-based resins are composed of different materials derived from fossil resources. Wood adhesives have been developed by the petrochemical industry and offer excellent performance, good working properties and are affordable. Howeve...
The giant reed (Arundo donax L.) is considered one of the world's 100 worst invasive species. The main method by which this species propagates is by growth of scattered fragments of rhizome, spreading without control with very strong, deep roots. Agricultural waste consists of lignocellulosic materials that can substitute natural wood and offer a suitable alternative with which to manufacture boards for furniture, packaging and building purposes. The objectives of this work were to obtain binderless particleboards using giant reed rhizome as the raw material, to evaluate their mechanical and physical properties according to the applicable European standards and to assess the self-binding mechanism of the particles in the board. Six types of boards (12 classes) were manufactured with giant reed rhizome biomass. They were manufactured with a temperature of 110 • C, a pressure of 2.5 MPa and pressing times of 7 and 15 min, applying one or two pressing cycles. The results achieved for modulus of rupture (14.2 N/mm 2 ), modulus of elasticity (2052.45 N/mm 2 ) and internal bonding strength (1.12 N/mm 2 ) show that the mechanical properties were improved by using a smaller rhizome particle size and two pressing cycles.
A large amount of research is being carried out to increase the use of renewable and eco-friendly resources like plant fibres for manufacturing new products in order to reduce energy consumption and improve their environmental impact. The almond is a deciduous tree that is native to Mediterranean areas, although nowadays the United States is the world’s main almond producer. The almond fruit has three distinct parts: the inner core or flesh, the hard middle part or shell, and the outer covering of the shell, called the hull (exocarp and mesocarp). This work analyses the use of almond residues for producing eco-friendly particleboards. The ground hull of the almond has been used as a raw material, obtaining 4 different particle sizes. Eight type of board has been manufactured without using any kind of adhesive. The particle size influences some physical and mechanical properties. With particle sizes <0.25 mm it is possible to achieve greater strength in terms of modulus of rupture (MOR): 14.01 N/mm2, modulus of elasticity (MOE): 2295.32 N/mm2 and internal bonding strength (IB): 0.57 N/mm2. This study shows that it is technically possible to manufacture boards with this material without using adhesives.
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