The Changes of Moisture Absorption Properties during the Service Life of External Thermal Insulation Composite System

Norvaišienė, Rosita; Griciutė, Gintarė; Bliūdžius, Raimondas; Ramanauskas, Juozas

doi:10.5755/j01.ms.19.1.3834

Cited by 12 publications

(11 citation statements)

References 3 publications

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“…One of the primary promoters of the degradation of external claddings is exposure to damp [52]. The presence of moisture in conjunction with salts significantly increases the degradation rate of external claddings, leading to aesthetic anomalies (such as scaling, flaking, efflorescence, strains, and biological growth) or more severe anomalies (such as cracking, swelling, detachment, spilling, and material loosening) [53][54][55][56]. In this study, exposure to damp is divided into two categories: (i) Low, for claddings in buildings located in an urban context, at more than 5 km from the sea and without the influence of dominant winds carrying sea salts; and (ii) high, for buildings located closer to the sea or other humidity sources, under the direct influence of sea winds, or in areas with an average annual rainfall higher than 500 mm or average annual relative humidity higher than 75%.…”

Section: Exposure To Dampmentioning

confidence: 99%

Impact of Environmental Exposure Conditions on the Maintenance of Facades’ Claddings

et al. 2021

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Façades, as the most external building envelope component, are subject to different ex-ternal environmental loads, such as: Temperature, precipitation, damp, and wind. Therefore, the contribution of environmental actions to the occurrence of defects in façades claddings is an important subject of study since these actions strongly affect the degradation process and natural ageing of these components during their service life. In this study, a methodology to support decision-makers in the process of selecting a façade cladding system and the maintenance strategy to implement is presented and discussed. This methodology covers the performance of four façade claddings (ceramic tiling systems (CTS), natural stone claddings (NSC), external thermal insulation composite systems (ETICS), and architectural concrete façades (ACF)) over time, according to three environmental exposure variables (exposure to damp, distance from the sea, and orientation). The databases were established based on the diagnosis of the degradation condition of these claddings in-service conditions, in Portugal. The results reveal that the environmental exposure variables have a significant impact on maintenance requirements and costs. For all the categories of the environmental exposure condition variables, under all scenarios, ETICS is the least favorable constructive solution while CTS is the most advantageous solution. Furthermore, the results show that properly implemented maintenance activities enhance the performance level of building components, which positively affects their degradation behavior over time.

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Section: Exposure To Dampmentioning

confidence: 99%

Impact of Environmental Exposure Conditions on the Maintenance of Facades’ Claddings

et al. 2021

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“…The results obtained by the average degradation curve seem more reliable since they reveal that the darker colours tend to present a lower estimated service life. Various authors (Daniotti & Paolini, 2008;Norvaišienė, Griciutė, Bliūdžius, & Ramanauskas, 2013;Fernandes et al, 2016b) refer that ETICS with dark colours tend to present a faster deterioration rate, especially in warm climates, when exposed for several hours to UV radiation, due to the higher thermal gradient effect. However, in some situations it is not possible to achieve conclusive results for a given characteristic of the ETICS, when analysed separately, since the degradation of ETICS is influenced by several factors and the presence of anomalies is generally caused by the combined action of various degradation agents, which may occur simultaneously, and whose synergy can change the normal pathology of the cladding systems after a long period of time (Amaro et al, 2013;Sulakatko, Lill, & Liisma, 2015).…”

Section: Factor a -Materials Characteristicsmentioning

confidence: 99%

Application of the Factor Method to the Service Life Prediction of Etics

Marques

Brito

Silva

2018

International Journal of Strategic Property Management

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Abstract. This study intends to develop a methodology for service life prediction of ETICS (External Thermal Insulation Composite System), based on the factor method. The methodology adopted is based on data collected during visual inspections of buildings under current conditions of occupation and exposure, contemplating the degradation mechanisms and the characteristics of ETICS. This research can also provide a suitable tool to aid the planning, implementation and rational use of building management systems in several ways, namely: i) improvement of the materials' performance, based on the optimization of maintenance actions, use of resources and maintenance costs; ii) selection of the best constructive solution, based on the knowledge of the evolution of degradation of ETICS, according to their characteristics; iii) analysis of the economic and environmental impacts of buildings during their life cycle, based on the knowledge of the number of replacements required during this period of time.

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“…However, is it necessary to use all these test methods, moreover the earlier studies showed, that the most simple and reliable indicator of render's ageing is the change of water absorption rate during the ageing. (ASHREA 2010, Topcu and Merkel 2008, Norvaišienė et al 2011, Koči et al 2012 By summarizing all above mentioned accelerated ageing methods, one matter arises: why such climate impacts, durations and amplitudes are chosen for determination of ETICS durability?…”

Section: Methodsmentioning

confidence: 99%

“…Furthermore, accelerated ageing ought to be as similar as natural ageing. Several experiments were performed concerning ETICS service life and different results were obtained due to different test methods (Shohet and Paciuk 2004, Daniotti and Paolini 2005, Bochen et al 2005, Jelle et al 2008, Bochen 2009, Bochen and Gil 2009, Koči et al 2012, Norvaišienė et al 2011.…”

Section: Introductionmentioning

confidence: 99%

The Durability Test Method for External Thermal Insulation Composite System used in Cold and Wet Climate Countries

Griciutė¹,

Bliūdžius²,

Norvaišienė

2013

Journal of Sustainable Architecture and Civil Engineering

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The paper proposes the durability prediction method for external thermal insulation composite system (ETICS), which could be applied in cold and wet climate regions. This improved method is based on the international and nowadays applicable standards for systems service life assessment (ETAG 004, ISO 15462), and completes them with other necessary impact criteria. This study examines the main climate exposures and how these impacts reproduced in the laboratories. The paper analyses the extreme air temperature and rainfall changes, the intensity of ultraviolet radiation (UV) in Lithuania. The analysis is based on evaluation of daily and yearly data recorded by meteorological stations. The aim of the research is to compose the accelerated ageing cycle for ETICS taking into account the characteristics of building materials and identifying the potential degradation factors and indicators. In order to establish the combinations of impacts in ageing cycles, it is necessary the adequate evaluation of intensity of environmental exposures of a certain locality. The basic goal is to create the reliable accelerated ageing cycle which would be as similar as natural ageing.

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The Changes of Moisture Absorption Properties during the Service Life of External Thermal Insulation Composite System

Cited by 12 publications

References 3 publications

Impact of Environmental Exposure Conditions on the Maintenance of Facades’ Claddings

Impact of Environmental Exposure Conditions on the Maintenance of Facades’ Claddings

Application of the Factor Method to the Service Life Prediction of Etics

The Durability Test Method for External Thermal Insulation Composite System used in Cold and Wet Climate Countries

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