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Cement Composites with Carbon-Based Nanomaterials for 3D Concrete Printing Applications (2023-02)

A Review

10.1002/tcr.202200293

 Basha Shaik,  Rehman Atta,  Aziz Md,  Kim Jung-Hoon
Journal Article - Chemical Record

Abstract

3D concrete printing (3DCP) is an emerging additive manufacturing technology in the construction industry. Its challenges lie in the development of high-performance printable materials and printing processes. Recently developed carbon-based nanomaterials (CBNs) such as graphene, graphene oxide, graphene nanoplatelets, and carbon nanotubes, have various applications due to their exceptional mechanical, chemical, thermal, and electrical characteristics. CBNs also have found potential applications as a concrete ingredient as they enhance the microstructure and modify concrete properties at the molecular level. This paper focuses on state-of-the-art studies on CBNs, 3DCP technology, and CBNs in conventional and 3D printable cement-based composites including CBN dispersion techniques, concrete mixing methods, and fresh and hardened properties of concrete. Furthermore, the current limitations and future perspectives of 3DCP using CBNs to produce high-quality composite mixtures are discussed.

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BibTeX 
@article{bash_rehm_aziz_kim.2023.CCwCBNf3CPA,
  author            = "Shaik Inayath Basha and Atta Ur Rehman and Md Abdul Aziz and Jung-Hoon Kim",
  title             = "Cement Composites with Carbon-Based Nanomaterials for 3D Concrete Printing Applications: A Review",
  doi               = "10.1002/tcr.202200293",
  year              = "2023",
  journal           = "Chemical Record",
}
Formatted Citation

S. I. Basha, A. U. Rehman, M. A. Aziz and J.-H. Kim, “Cement Composites with Carbon-Based Nanomaterials for 3D Concrete Printing Applications: A Review”, Chemical Record, 2023, doi: 10.1002/tcr.202200293.

Basha, Shaik Inayath, Atta Ur Rehman, Md Abdul Aziz, and Jung-Hoon Kim. “Cement Composites with Carbon-Based Nanomaterials for 3D Concrete Printing Applications: A Review”. Chemical Record, 2023. https://doi.org/10.1002/tcr.202200293.