Our team is at the forefront of research in 3D concrete printing, authoring many high-impact publications that have advanced the field.
Hojati, M.; Memari, A.; Zahabi, M.; Wu, Z.; Li, Z., M.; Park, K., Nazarian, S.; Duarte, J.; Development of Innovative Reinforcement Method for 3D Concrete Printing, in Journal of Additive Manufacturing, Elsevier. (Submitted on November 23, 2021)
Hojati, M.; Li, Z., Memari, A.; Park, K., Zahabi, M.; Nazarian, S.; Duarte, J.; Radlinska, A. Mixture Design and Mechanical Properties of Sustainable Cementitious Materials for 3D-Printing, in Results in Engineering Journal, Elsevier. (Submitted on October 31, 2021)
Park, K.; Memari, A.; Hojati, M.; Duarte, J.; Nazarian, S.; Radlinska, A.; Bilén, S.; 3D Printing of a Concrete Dome Structure – System Development and Material and Structural Studies, in Progress in Additive Manufacturing. (Paper submitted October 11, 2021)
Ashrafi, N.; Nazarian, S.; Meisel, N.; Duarte, J. Experimental calibration and compensation for the continuous effect of time, number of layers and volume of material on shape deformation in small-scale additive manufacturing of concrete, in Journal of Additive Manufacturing, Volume 47, November 2021, 102228.
Duarte, G.; Brown, N.; Memari, A.; Duarte, J. Learning from historical structures under compression for concrete 3D printing construction, in Journal of Building Engineering. 43 (2021) 103009.
Meisel, N.; Watson, N.; Bilén, S.; Duarte, J.P.; Nazarian, S. Design and System Considerations for Construction-Scale Concrete Additive Manufacturing via Robotic Arm Deposition, in 3D Printing and Additive Manufacturing. Available online August 2, 2021.
Li, Z.; Hojatti, M.; Duarte, J.; Nazarian, S.; Bilén, S.; Memari, A.; Radlinska, A. Towards 3D-printable cementitious materials on Earth and beyond, in Concrete Engineering International, January 2021, pp. 18-20.
Ashrafi, N.; Nazarian, S.; Meisel, N.; Duarte, J. Experimental Prediction of Material Deformation in Large-Scale Additive Manufacturing of Concrete, in Journal of Additive Manufacturing, Volume 37, 2021. DOI:
Li, Z.; Hojati, M.; Wu, Z.; Piasente, J.; Ashrafi, N.; Duarte, J.P.; Nazarian, S.; Bilén, S.G.; Memari, A.M.; Radlinska, A. Fresh and Hardened Properties of Extrusion-Based 3D-printed Cementitious Materials: A Review. Sustainability 2020, 12(14), 5628.
Craveiro, F.; Bártolo, H.; Bártolo, P.; Nazarian, S.; Duarte, J.P. An automated system for 3D printing functionally graded concrete-based materials, in Additive Manufacturing.
Craveiro, F.; Bártolo, H.; Duarte, J.P.; Bártolo, P. Additive Manufacturing as an enabling technology for digital construction: A perspective on Construction 4.0, in Automation in Construction, Vol. 103, April 2019, pp. 251-267.
Ashrafi, N.; Duarte, J.P.; Nazarian, N.; Meisel, N. Evaluating the Relationship between Deposition and Layer Quality in Large-Scale Additive Manufacturing of Concrete, in Bourel, David (ed.) Journal of Virtual and Physical Prototyping, March 2018, pp. 2-6.
Craveiro, F.; Bártolo, H.M.; Gale, A.; Duarte, J.P.; Bártolo, P.J. A design tool for resource-efficient fabrication of 3d-graded structural building components using additive manufacturing, Automation in Construction 82 (2017) 75–83.