Assessing the feasibility of integrating form-stable phase change material composites with cementitious composites and prevention of PCM leakage

Article

Ramakrishnan, Sayanthan, Wang, Xiaoming, Sanjayan, Jay and Wilson, John. 2017. "Assessing the feasibility of integrating form-stable phase change material composites with cementitious composites and prevention of PCM leakage." Materials Letters. 192, pp. 88-91. https://doi.org/10.1016/j.matlet.2016.12.052

Article Title	Assessing the feasibility of integrating form-stable phase change material composites with cementitious composites and prevention of PCM leakage
ERA Journal ID	1005
Article Category	Article
Authors	Ramakrishnan, Sayanthan, Wang, Xiaoming, Sanjayan, Jay and Wilson, John
Journal Title	Materials Letters
Journal Citation	192, pp. 88-91
Number of Pages	4
Year	2017
Publisher	Elsevier
Place of Publication	Netherlands
ISSN	0167-577X
	1873-4979
Digital Object Identifier (DOI)	https://doi.org/10.1016/j.matlet.2016.12.052
Web Address (URL)	https://www.sciencedirect.com/science/article/pii/S0167577X16319413
Abstract	In this study, the feasibility of integrating form-stable phase change material (FS-PCM) composites into cementitious composites was investigated. Two different FS-PCM composites were fabricated by using paraffin as functional PCM and hydrophilic and hydrophobic expanded perlite as supporting materials. Because of different surface treatment properties of expanded perlite (EP), their behavior in the cementitious composites were found to be different. Paraffin/hydrophilic EP showed a significant amount of PCM leakage during the integration into cementitious composites. However, no trace of PCM leakage was observed when paraffin/hydrophobic EP integrated into cementitious composites. The instability of FS-PCM in cementitious composite was correlated with surface characteristics of composite PCMs such as contact angle and wetting tension properties. It has been found that the composite PCM having contact angle higher than 90° and negative wetting tension properties successfully prevents the PCM leakage in cementitious composites due to counter-water affinity properties.
Keywords	Phase change material
Contains Sensitive Content	Does not contain sensitive content
ANZSRC Field of Research 2020	400505. Construction materials
Public Notes	Files associated with this item cannot be displayed due to copyright restrictions.
Byline Affiliations	Swinburne University of Technology
	Commonwealth Scientific and Industrial Research Organisation (CSIRO), Australia

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