Potential of natural rubber latex in cement mortar for thermal insulating material in buildings

The improvement of cement mortar’s thermal and mechanical properties has been greatly impacted by the addition of polymeric materials. However, polymers added to mortar shouldn’t impair either its mechanical or thermal conductivity properties. The main idea of this project is to insulate buildings b...

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Published in:Frontiers in materials 2023-03, Vol.10
Main Authors: Awoyera, Paul O., Althoey, Fadi, Ajinomisan, Hephzibah, Othuman Mydin, Md Azree, Bheel, Naraindas, Sabri Sabri, Mohanad Muayad, Hadidi, Haitham M., Jayanthi, V., Ahmad, Mahmood
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Language:English
Subjects:
cement mortar
compressive strength
conductivity
rubber latex
thermal insulation
water absorption
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container_title Frontiers in materials
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creator Awoyera, Paul O.
Althoey, Fadi
Ajinomisan, Hephzibah
Othuman Mydin, Md Azree
Bheel, Naraindas
Sabri Sabri, Mohanad Muayad
Hadidi, Haitham M.
Jayanthi, V.
Ahmad, Mahmood
description The improvement of cement mortar’s thermal and mechanical properties has been greatly impacted by the addition of polymeric materials. However, polymers added to mortar shouldn’t impair either its mechanical or thermal conductivity properties. The main idea of this project is to insulate buildings by reinforcing their constituent mix with natural rubber latex (NRL) to reduce thermal conductance from excessive solar radiation which causes discomfort to building occupants. Consequently, this study presents experimental findings on the influence of natural rubber latex (NRL) on the properties of NRL-modified mortar. Five varying percentages of NRL (0.5%, 1.0%, 1.5%, 2.0% and 2.5%) were added into the mortar. Properties such as thermal conductivity, water absorption capacity, compressive and flexural strengths were evaluated. In addition, scanning electron microscopy was employed for the microstructural investigation. The experimental findings demonstrated that adding 2.5% NRL to mortar increased its thermal conductivity of mortar significantly thus enhancing its insulative properties. Even though adding NRL to mortar decreased the compressive and flexural strengths of some mixes, this wasn’t too substantial nor substandard. The tests that were executed demonstrate that the NRL has a huge potential to insulate cement mortar.
doi_str_mv 10.3389/fmats.2023.1152492
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subjects cement mortar
compressive strength
conductivity
rubber latex
thermal insulation
water absorption
title Potential of natural rubber latex in cement mortar for thermal insulating material in buildings
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