Effect of Iron (III) Oxide Powder on Thermal Conductivity and Diffusivity of Lime Mortar

One of the challenges in construction is the improvement of energy efficiency of buildings. Development of construction materials of low thermal conductivity is a straightforward way to improve heat isolating capability of an enclosure. Lime mortar has a number of advantageous and peculiar propertie...

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Bibliographic Details
Published in:Materials 2021-02, Vol.14 (4), p.998
Main Authors: Masdeu, Francesc, Carmona, Cristian, Horrach, Gabriel, Muñoz, Joan
Format: Article
Language:English
Subjects:
Buildings
Cement
Cold
Construction materials
Efficiency
Enclosures
Energy
Environmental impact
Heat conductivity
Heat transfer
Iron
Lime
Mortars (material)
Portland cements
Thermal conductivity
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Summary:One of the challenges in construction is the improvement of energy efficiency of buildings. Development of construction materials of low thermal conductivity is a straightforward way to improve heat isolating capability of an enclosure. Lime mortar has a number of advantageous and peculiar properties and was widely used until the "irruption" of Portland cement. Currently, lime mortar is still used in restoration of traditional buildings or, according to the urban regulations, in catalogued constructions. The goal of the present study is the improvement of the heat isolating capability of lime mortars. The strategy of this work is the addition of iron (III) oxide powder, which is one of the possible components forming the cements, to a base lime mortar. The reason to choose Fe O was two-fold. The first reason is low thermal conductivity of Fe O compared to lime mortar. The second reason is that the low solubility and small size of iron (III) oxide particles have an effect on the thermal conductivity across the lime particles. The effect of iron (III) oxide powder on the thermal conductivity has been experimentally determined by the hot-box method. It has been found that the insulating capacity and thermal inertia of lime mortar is improved significantly by the addition of Fe O powder, increasing the energy saving of the enclosure.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma14040998