The Impact of Hygrothermal Aging on Stability and Water Pressure Resistance of Building Envelope Membranes

Authors

Mohammad Hossein Yari, National Research Council CanadaFollow
Elnaz Esmizadeh, National Research Council CanadaFollow
Marzieh Riahinezhad, National Research Council CanadaFollow
Itzel Lopez-Carreon, National Research Council CanadaFollow
Esrat Jahan, National Research Council CanadaFollow
Peter Collins, National Research Council CanadaFollow
MAURICE DEFO, National Research Council CanadaFollow
Lin Wang, National Research Council CanadaFollow
Elena Dragomirescu, University of OttawaFollow

Abstract

Building membranes, specifically those designed as water-resistive barriers (WRBs), play a pivotal role in construction, serving as protective barriers against moisture infiltration from environmental stresses like wind-driven rain, thereby influencing the durability of buildings. As these materials age, changes in their structure can significantly affect their performance in resisting water ingress, with potential implications for the durability of building structures. Therefore, this research investigates the transformative effects of hygrothermal aging on the water-resistance performance, hydrophobicity, chemical integrity, and thermal resistance of the WRBs with a specific focus on non-woven polyethylene, self-adhesive polyethylene, and asphalt-saturated kraft paper, which represent a diverse array of materials commonly used in the construction industry. Two distinct combinations of hygrothermal conditions were designed to age the sample which are 90% RH at 70°C and 40% RH at 40°C, over different time spans of up to eight months. Water pressure resistance was evaluated using a hydrostatic head tester to assess the membranes' ability to withstand water pressure under various aging conditions. Hydrophobicity, a critical characteristic influencing moisture management, was determined through contact angle measurements. Additionally, Fourier Transform Infrared Spectroscopy (FT-IR) was used to detect chemical changes in membrane composition. The thermal stability of the WRBs was also analyzed by thermal gravimetry analysis (TGA). The study shows that aging leads to a slight reduction in the average of water pressure resistance, indicating slight decreases in barrier effectiveness. For contact angle, no significant change is observed in the hydrophobicity of building paper but a very slight decrease in Spun-bonded Poly Olefin film (SPBO) and self-adhesive film. FTIR analysis reveals subtle oxidation changes in building paper, while TGA indicates only minor thermal stability degradation on this membrane and no significant alternation in the chemical integrity of SBPO and self-adhesive film.

The paper will be presented:

In-person

Primary U.N. Sustainable Development Goals (SDG)

Sustainable Cities and Communities - - Make cities and human settlements inclusive, safe, resilient and sustainable

Secondary U.N. Sustainable Development Goals (SDG)

Climate Action - - Take urgent action to combat climate change and its impacts

Primary CIB Task Group OR Working commission

W080 – Prediction of Service Life of Building Materials and Components

Secondary CIB Task Group OR Working commission

W040 – Heat and Moisture transfer in Buildings

Recommended Citation

Yari, Mohammad Hossein; Esmizadeh, Elnaz; Riahinezhad, Marzieh; Lopez-Carreon, Itzel; Jahan, Esrat; Collins, Peter; DEFO, MAURICE; Wang, Lin; and Dragomirescu, Elena (2025) "The Impact of Hygrothermal Aging on Stability and Water Pressure Resistance of Building Envelope Membranes," CIB Conferences: Vol. 1 Article 227.
DOI: https://doi.org/10.7771/3067-4883.1812