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A platform for research: civil engineering, architecture and urbanism
Verification of external thermal insulation systems with composite thermal insulation and different renders in effect of hydrothermal stress
This paper is the research output of the laboratory ageing of external thermal insulation composite systems (ETICS). This was carried out in order to study the changes in properties of systems consisting of combustible and non-combustible thermal insulation materials, and four different types of finishing renders. Four types of the widely used, thin-layer facade rendering systems were subjected to hydrothermal cycles in a climate chamber in conformity with ETAG 004 guidelines. Analysis of the physical and mechanical properties (i.e., variation of temperature, water absorption, bond strength and mechanical resistance) of four types of ETICS are presented. This study indicates that there are no visible defects on any renderings over the junctions between polystyrene foam (EPS) and mineral wool (MW) materials when applied in ETICS.
Verification of external thermal insulation systems with composite thermal insulation and different renders in effect of hydrothermal stress
This paper is the research output of the laboratory ageing of external thermal insulation composite systems (ETICS). This was carried out in order to study the changes in properties of systems consisting of combustible and non-combustible thermal insulation materials, and four different types of finishing renders. Four types of the widely used, thin-layer facade rendering systems were subjected to hydrothermal cycles in a climate chamber in conformity with ETAG 004 guidelines. Analysis of the physical and mechanical properties (i.e., variation of temperature, water absorption, bond strength and mechanical resistance) of four types of ETICS are presented. This study indicates that there are no visible defects on any renderings over the junctions between polystyrene foam (EPS) and mineral wool (MW) materials when applied in ETICS.
Verification of external thermal insulation systems with composite thermal insulation and different renders in effect of hydrothermal stress
Norvaisiene, Rosita (author) / Krause, Pawel (author) / Buhagiar, Vincent (author) / Burlingis, Arūnas (author) / Miskinis, Kestutis (author)
2020-01-01
Proceedings: 9th innovations-sustainability-modernity-openness conference (ISMO’20), Bialystok, Poland, 20-21 May 2020 / editors: D.A. Krawczyk,I. Skoczko, A.R. Serrano, Basel : MDPI, 2020, vol. 51, iss. 1, art. no. 16, p. 1-6 ; ISSN 2504-3900
Article (Journal)
Electronic Resource
English
DDC:
690
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