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powder is provided from waste glass. Consequently, foam glass has two advantages. Firstly, it is benefited both mechanical and thermal properties simultaneously. On the other hand, using waste glass causes less harm to the environment [ 6 ]. Foam glass is
. The façade details and thermal properties presented are described as in a previous façade study [ 13 , 14 ]. 3 Results and discussion 3.1 South oriented models with horizontal folded structure: results The cooling and heating energy results (see Fig
MC classes. When the volume of the wooden cells increases, new cracks develop, and the continuously absorbed water creates a humid environment for fungi growth. Both effects will have high negative impact on the mechanical, physical, and thermal
]. The first applications of graphene were in the field of electronic devices, owing to its electronic characteristics [ 2 – 4 ]. Moreover, the graphene has more other interesting properties, such as high strength and stiffness, excellent thermal
remarkable physical, chemical, optical, electronic and thermal properties [ 9, 10 ]. However, recently, it has attracted the attention of many researchers for biological applications, including biosensors, tissue engineering, and the design of antibacterial
B Shindman , “ The mechanical, transport and thermal properties of mortar and concrete containing waste cork ,” Cem. Concr. Comp. , vol. 34 , no. 9
thermal insulation). The doors and glazed structures in the façade are designed with three-layer insulated glazing. Structures’ thermal properties (including all relevant layers) according to Hungarian building energy regulation 7/2006 (V.24. TNM, 5.) and
achieved, due to the beneficial effect of the thermal mass and the 90 cm high parapet (30% less WWR). Heating conservation accounts for 4% per year. The lower rate of winter savings is based on the 3-layer glazing’s good thermal properties (the resulting
to 52.3% saving in energy consumption. The most crucial saving is provided in the heating system, dominating energy balance throughout the whole year. The main contributors to this improvement are the thermal properties of the opaque and transparent
cm plaster layer in the top and 1 cm base plaster on the bottom of the roof ( Fig. 3 ). The thermal properties were taken from the database of Design Builder. Thermal bridges were neglected in this study. Table I Description of the wall and roof