Role of biopolymers in enhancing multiscale characteristics of carbonation-cured cementitious composites

This study investigates the application of two natural biopolymers, i.e., polydopamine and nanocellulose, as performance-enhancing additives in carbonation-cured ordinary Portland cement (OPC) - slag blended composites. A multiscale investigation reveals that the addition of these biopolymers increa...

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Bibliographic Details
Published in:Cement & concrete composites 2022-11, Vol.134, p.104766, Article 104766
Main Authors: Khan, Rakibul I., Haque, Muhammad Intesarul, Ashraf, Warda, Shah, Surendra, Saleh, Navid
Format: Article
Language:English
Subjects:
Calcium carbonate
Carbonation
CO2 footprint
Nanocellulose
OPC
Polydopamine
Slag
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Summary:This study investigates the application of two natural biopolymers, i.e., polydopamine and nanocellulose, as performance-enhancing additives in carbonation-cured ordinary Portland cement (OPC) - slag blended composites. A multiscale investigation reveals that the addition of these biopolymers increases the formation of nanoporosity and reduces amounts of microporosity in the matrixes. Both biopolymers are also found to increase the degree of reaction in the binders. Incorporation of 0.05 wt% polydopamine increases the flexural strength of the composites by 55% after 28 days of curing. A similar flexural strength improvement (∼66%) can also be achieved by adding nanocellulose. Moreover, the addition of these biopolymers increases the early age (∼3 days) compressive strength of the carbonated composites by nearly 35%. It is postulated that the addition of polydopamine enhances performance by creating stronger bonds with the reaction products and by stabilizing amorphous CaCO3. On the other hand, the addition of nanocellulose improves the strength by bridging microcracks.
ISSN:0958-9465
1873-393X
DOI:10.1016/j.cemconcomp.2022.104766