Redirigiendo al acceso original de articulo en 23 segundos...
ARTÍCULO
TITULO

Determination of thermal and physical characteristics of dead pine wood thermal insulation products

Yuriy Tsapko    
Denys Zavialov    
Olga Bondarenko    
Nataliia Marchenco    
Serhiy Mazurchuk    
Oleksandra Horbachova    

Resumen

The studies allowed manufacturing dead pine wood thermal insulation materials for the arrangement of premises. Raw materials for their production are wood fibers formed as flat boards. The mechanisms of the thermal insulation process during energy transfer through the material, which makes it possible to influence this process are determined. It is proved that the processes of thermal insulation consist in reducing the porosity of material. So, with a decrease in material density, thermal conductivity decreases, and vice versa. Modeling of the heat transfer process in the swelling of the fireproof coating is carried out, temperature dependences of thermophysical coefficients are determined. Based on the obtained dependences, thermal conductivity for dead pine wood products, reaching 0.132 W/(m·K) is estimated. In case of adhesive bonding of wood products, it decreases to 0.121 W/(m·K) and when creating wood wool thermal insulation boards it decreases to 0.079 W/(m·K), respectively. Features of inhibition of the process of heat transfer to the adhesive bonded wood wool material are associated with the formation of pores. This is because in small pores there is no air movement, accompanied by heat transfer. Thermal conductivity of homogeneous material depends on density. So, with a decrease in the material density to 183 kg/m3, thermal conductivity decreases 1.67 times, and vice versa, when using the board, thermal conductivity decreases only 1.1 times. This allows confirming the compliance of the discovered real mechanism of thermal insulation with the revealed conditions for the formation of properties of the inorganic and organic-mineral bonded wood wool material, as well as practical attractiveness of low-quality wood. The latter, in particular, relate to determining the amount of the binder component. Thus, there is reason to argue about the possibility of directed regulation of the processes of formation of wood thermal insulation materials using wood wool and inorganic and organic-mineral binder, which can form a fire-retardant film on the material surface

 Artículos similares

       
 
Mariano Pierantozzi, Sebastiano Tomassetti and Giovanni Di Nicola    
In this paper, the procedure of finding the coefficients of an equation to describe the thermal conductivity of refrigerants low in global warming potential (GWP) is transformed into a multi-objective optimization problem by constructing a multi-objectiv... ver más
Revista: Algorithms

 
Alexander Misol, Alejandro Jiménez and Francisco M. Labajos    
Amines with two carbon atoms in the organic chain [ethylamine (EA), diethylamine (DEA), triethylamine (TEA)] have been used as precipitant agents to obtain a hydrotalcite-like compound with Zn (II) and Al (III) as layered cations and with nitrate anions ... ver más
Revista: ChemEngineering

 
Ziyi Qiu, Defu Lin, Ren Jin, Junning Lv and Zhangxiong Zheng    
With the continuous expansion of the application field of UAV intelligent systems to GNSS-denied environments, the existing navigation system can hardly meet low cost, high precision, and high robustness in such conditions. Most navigation systems used i... ver más
Revista: Aerospace

 
Rachel Dunwoody, Jack Reilly, David Murphy, Maeve Doyle, Joseph Thompson, Gabriel Finneran, Lána Salmon, Conor O?Toole, Sai Krishna Reddy Akarapu, Jessica Erkal, Joseph Mangan, Fergal Marshall, Eoghan Somers, Sarah Walsh, Daithí de Faoite, Mike Hibbett, David Palma, Loris Franchi, Lily Ha, Lorraine Hanlon, David McKeown, William O?Connor, Alexey Uliyanov, Ronan Wall, Brian Shortt and Sheila McBreenaddShow full author listremoveHide full author list    
CubeSats facilitate rapid development and deployment of missions for educational, technology demonstration, and scientific purposes. However, they are subject to a high failure rate, with a leading cause being the lack of system-level verification. The E... ver más
Revista: Aerospace

 
Daniel Kalús, Daniela Koudelková, Veronika Mucková, Martin Sokol, Mária Kurcová and Peter Janík    
Research Area: Building components with integrated energy-active elements (BCEAE) are generally referred to as combined building-energy systems (CBES). Aim: Research on the application of energy (solar) roofs (ESR), ground heat storage (GHS), active ther... ver más
Revista: Applied Sciences