Dey, Dhrutiman, and Biranchi Panda. "An experimental study of thermal performance of 3D printed concrete slabs." Materials Letters 330 (2023): 133273. https://doi.org/10.1016/j.matlet.2022.133273
Dey, Dhrutiman, et al. "Use of industrial waste materials for 3D printing of sustainable concrete: A review." Journal of Cleaner Production (2022): 130749.
Dey, Dhrutiman, et al. "Flexural performance of 3D printed concrete structure with lattice infills." Developments in the Built Environment 16 (2023): 100297.
Srinivas, D., Dey, D., Panda, B., & Sitharam, T. G. (2022). Printability, Thermal and Compressive Strength Properties of Cementitious Materials: A Comparative Study with Silica Fume and Limestone. Materials, 15(23), 8607.
Kumar, L., Dey, D., Panda, B., & Muthu, N. (2023). Experimental and numerical evaluation of multi-directional compressive and flexure behavior of three-dimensional printed concrete. Frontiers of Structural and Civil Engineering, 17(11), 1643-1661.
Dey, Dhrutiman, et al. "Processing of cementitious materials for 3D concrete printing." Industry 4.0 and Advanced Manufacturing. Springer, Singapore, 2023. 283-291.
Dey, Dhrutiman, et al. "3D printability of ternary Portland cement mixes containing fly ash and limestone." Materials Today: Proceedings (2022).
Dey, D., Sahu, A., Prakash, S., & Panda, B. (2023). A study into the effect of material deposition methods on hardened properties of 3D printed concrete. Materials Today: Proceedings.
Paul, S. C., Basit, M. A., Hasan, N. M. S., Dey, D., & Panda, B. (2023). 3D printing of geopolymer mortar: Overview of the effect of mix design and printing parameters on the strength. Materials Today: Proceedings.
Maurya, S., Dey, D., Panda, B., & Dixit, U. S. (2023). Inline reinforcement of steel cable in 3D concrete printing. Materials Today: Proceedings.
Dey D., Undoped and Nb-doped anatase thin films: thickness induced variation in the microstructure, electronic structure and optoelectronic properties. Diss. Indian Institute of Technology Gandhinagar, 2019.