HOUSTON – (Jan. 26, 2024) – The world’s reliance on concrete, the second most consumed material after water, is leading to an environmental and resource crisis, with sand mining rates outstripping natural replenishment.
Credit: Jeff Fitlow/Rice University
HOUSTON – (Jan. 26, 2024) – The world’s reliance on concrete, the second most consumed material after water, is leading to an environmental and resource crisis, with sand mining rates outstripping natural replenishment.
A study by Rice University researchers found that graphene derived from metallurgical coke, a coal-based product, could serve not only as a reinforcing additive in cement but also as a replacement for sand in concrete.
“This could have a major impact on one of the biggest industries in the world,” said James Tour, Rice’s T. T. and W. F. Chao Professor and a professor of chemistry, materials science and nanoengineering. “We compared concrete made using the graphene aggregate substitute with concrete made using suitable sand aggregates, and we found our concrete is 25% lighter but just as tough.”
Concrete, a mixture of aggregates like sand and gravel bonded with cement and water, is essential for urban development. With 68% of the global population expected to live in urban areas by 2050, demand for concrete and hence sand mining is projected to grow significantly. This has tripled in the last two decades, reaching about 50 billion tons yearly. However, this comes at a significant environmental cost.
Cement production, a key component of concrete, accounts for 8% of worldwide carbon dioxide emissions. Moreover, sand mining, largely unregulated, poses severe threats to river and coastal ecosystems. According to a 2022 United Nations report, this escalating demand for sand, coupled with population growth and urban expansion, could soon trigger a “sand crisis.”
Applying its signature Joule-heating technique to metallurgical coke, the Tour lab has created a type of graphene that could serve as a substitute for sand in concrete.
“Initial experiments where metallurgical coke was converted into graphene resulted in a material that appeared similar in size to sand,” said Paul Advincula, a Rice doctoral alum who is a lead author on the study. “We decided to explore the use of metallurgical coke-derived graphene as a total replacement for sand in concrete, and our findings show that it would work really well.”
Tests comparing conventional concrete with concrete made from graphene aggregates show promising results. The graphene-based concrete not only matches the mechanical properties of standard concrete but also offers a higher strength-to-weight ratio.
The Tour lab has used Flash Joule heating for a variety of applications, including hybrid carbon nanomaterials synthesis, battery part recycling and heavy metal removal from coal fly ash.
“This technique produces graphene faster and at a larger scale than previous methods,” Advincula said.
With the potential to reduce reliance on natural sand and lower carbon emissions from the concrete industry, this new technology could lead to more sustainable urban development practices.
“It will take some time for the price of graphene to get low enough to make this viable,” Tour said. “But this just shows there are alternatives we can pursue.”
Satish Nagarajaiah, a professor of civil and environmental engineering and of mechanical engineering who is a corresponding author on the study, emphasized that “30% of concrete is composed of sand — a significant part.”
“The fact that we’re on the brink of a ‘sand crisis’ motivates us to look for alternatives, and metallurgical coke, which costs about the same as sand at about 10% of the cost of concrete, could help not only make better-quality concrete, but also eventually translate into significant savings,” Nagarajaiah said.
The research was supported by the U.S. Army Corps of Engineers, Engineer Research and Development Center (W912HZ-21-2-0050), the Air Force Office of Scientific Research (FA9550-22-1-0526) and the National Science Foundation.
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Peer-reviewed paper:
“Replacement of Concrete Aggregates with Coal-Derived Flash Graphene” | ACS Applied Materials and Interfaces | DOI: 10.1021/acsami.3c15156
Authors: Paul Advincula, Wei Meng, Lucas Eddy, Phelecia Scotland, Jacob Beckham, Satish Nagarajaiah and James Tour
https://pubs.acs.org/doi/full/10.1021/acsami.3c15156
Image downloads:
https://news-network.rice.edu/news/files/2024/01/Tour_Nagarajaiah-91b23343f00b6799.jpg
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Links:
Nagarajaiah Research Group: https://satishnagarajaiah.rice.edu/
Tour lab: https://www.jmtour.com/
Department of Civil and Environmental Engineering: https://cee.rice.edu/
Department of Chemistry: https://chemistry.rice.edu/
Department of Materials Science and NanoEngineering: msne.rice.edu
Department Mechanical Engineering: https://mech.rice.edu/
George R. Brown School of Engineering: https://engineering.rice.edu
Wiess School of Natural Sciences: https://naturalsciences.rice.edu/
About Rice:
Located on a 300-acre forested campus in Houston, Rice University is consistently ranked among the nation’s top 20 universities by U.S. News & World Report. Rice has highly respected schools of architecture, business, continuing studies, engineering, humanities, music, natural sciences and social sciences and is home to the Baker Institute for Public Policy. With 4,574 undergraduates and 3,982 graduate students, Rice’s undergraduate student-to-faculty ratio is just under 6-to-1. Its residential college system builds close-knit communities and lifelong friendships, just one reason why Rice is ranked No. 1 for lots of race/class interaction, No. 2 for best-run colleges and No. 12 for quality of life by the Princeton Review. Rice is also rated as a best value among private universities by Kiplinger’s Personal Finance.
Journal
ACS Applied Materials & Interfaces
DOI
10.1021/acsami.3c15156
Method of Research
Experimental study
Subject of Research
Not applicable
Article Title
Replacement of Concrete Aggregates with Coal-Derived Flash Graphene
Article Publication Date
29-Dec-2023