Influence of Adding Encapsulated Phase Change Materials in Aerial Lime based Mortars
authors Cunha, S; Aguiar, JB; Ferreira, VM; Tadeu, A
editors Wang, R; Yang, ZH
nationality International
journal PROGRESS IN POLYMERS IN CONCRETE
author keywords Phase Change Materials (PCM); Polymer Microcapsules; Thermal Mortars; Workability; Mechanical Behaviour; Shrinkage
abstract Increasingly in a society with a high growth rate and standards of comfort, the need to minimize the currently high energy consumption by taking advantage of renewable energy sources arises. The mortars with incorporation of phase change materials (PCM) have the ability to regulate the temperature inside buildings, contributing for an increase in the level of thermal comfort and reduction of the use of heating, ventilation and air conditioning (HVAC) equipment, using only the energy supplied by the sun. However, the incorporation of PCM in mortars modifies some of its characteristics. Therefore, the main objective of this study was the characterization of mortars doped with two different phase change materials. Specific properties of different PCM, such as particle size, shape and enthalpy were studied, as well as the properties of the fresh and hardened state of these mortars. Nine different compositions were developed which were initially doped with microcapsules of PCM A and subsequently doped with microcapsules of PCMB. It was possible to observe that the incorporation of phase change materials in mortars causes differences in properties such as compressive strength, flexural strength and shrinkage. After the study of the behaviour of these mortars with the incorporation of two different phase change materials, it was possible to select the composition with a better compromise between its aesthetic appearance, physical and mechanical characteristics.
publisher TRANS TECH PUBLICATIONS LTD
issn 1022-6680
isbn 978-3-03785-680-2
year published 2013
volume 687
beginning page 255
ending page 261
digital object identifier (doi) 10.4028/www.scientific.net/AMR.687.255
web of science category Construction & Building Technology; Engineering, Civil; Polymer Science
subject category Construction & Building Technology; Engineering; Polymer Science
unique article identifier WOS:000323183900036
  ciceco authors
  impact metrics
dimensions (citation analysis):
altmetrics (social interaction):



 


Sponsors

1suponsers_list_ciceco.jpg