Abstract
Designers more and more often choose facade systems with ventilated layers for external walls, especially in the case of new buildings. They are also used to modernize existing buildings. Mechanical connectors are a characteristic element of these constructions. Often, they are ignored in calculating the heat balance of rooms and the entire building. Because they pierce the thermal insulation layer they cause point thermal bridges. The influence of thermal point bridges, usually made of aluminum, i.e. a material with very high thermal conductivity, for heat transfer turns out to be significant. Such thermal bridges significantly increase heat losses through building partitions. This situation increases the heat demand in the rooms to compensate for the heat loss. The article presents the results of the analysis of the impact of mechanical fasteners in ventilated facade systems on heat transfer in the building envelope. The influence of various materials and constructional solutions on the thermal conditions in these walls was investigated.
Reference20 articles.
1. Bikasa D., Tsikaloudakia K., Kontoleona K.J., Giarmaa C., Tsokaa S., Tsirigoti D., Ventilated Facades: Requirements and Specifications Across Europe, P. E. S. 38 (2017)
2. ETAG 034-2 Guideline for European Technical Approval of Kits for External Wall CladdingS Part II: Cladding Kits Comprising Cladding Components, Associated Fixings, Subframe and Possible Insulation Layer, EOTA Brussel (2012)
3. Schabowicz K., Szymków M., Details of aluminium substructures in ventilated facades. I.9(2017)
4. Kulczewska S., Jezierski W., Analiza rozwiązań złożonych mostków termicznych pod względem udoskonalania ich parametrów cieplnych, Budow. i Arch. 15 (3) (2016)
5. PN-EN ISO 6946:2017-10 Komponenty budowlane i elementy budynku -Opór cieplny i współczynnik przenikania ciepła -Metody obliczania
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