Scientists at the Indian Institute of Science (IISc) in Bengaluru have created a promising new material that can replace natural sand in construction. This development comes as a response to the growing scarcity of sand, a crucial component in building materials.
The team at IISc's Centre for Sustainable Technologies (CST) is exploring methods to utilise carbon dioxide (CO2) captured from industrial waste gases. They treat excavated soil and construction waste with this CO2, transforming it into a viable sand alternative.
"These materials can then be used to partially replace natural sand. This would not only reduce the environmental impact of construction materials but also impart properties that can enhance their use for construction," stated IISc in a press release.
Led by Assistant Professor Souradeep Gupta, the research demonstrates that using CO2-treated construction waste in mortar, followed by curing in a CO2-rich environment, significantly accelerates the development of the material's strength.
The lab members are seen surrounding the developed carbon-sequestered building materials, which were manufactured using additive manufacturing.
Photo Credit: The MatERIAL group, CST, IISc
"CO2 utilisation and sequestration can be a scalable and feasible technology for manufacturing low-carbon prefabricated building products while being aligned with the nation's decarbonisation targets," explains Dr Souradeep Gupta, whose lab is carrying out these studies.
This innovative process boasts a 20-22% increase in the material's compressive strength. Additionally, injecting CO2 into clay soil, commonly found at construction sites, improves its interaction with cement and lime. This not only stabilises the clay but also enhances its overall engineering performance.
Dr Gupta's team's research extends further. They've explored incorporating captured CO2 into excavated soil to create cement-lime-soil composites, potentially replacing up to half of the fine aggregates typically used in mortar. This technique promotes the formation of calcium carbonate crystals, leading to improved strength and reduced pore space. Exposing these materials to CO2 further accelerates curing and increases early-age strength by 30%.
The researchers have also developed 3D-printable materials using stabilised excavated soil combined with binders like cement, slag, and fly ash. These materials offer superior printability, potentially reducing the need for cement and sand by up to 50% each.
Future research will focus on the impact of industrial flue gas on these materials' properties, paving the way for industrial applications and potentially revising standards for cement-based construction materials.
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