Initial Properties of 3D Printing Concrete Using Rice-Husk-Ash as Partial Cement Replacement (2022-05)¶
10.1088/1755-1315/1022/1/012055
Samad Nur, Abdullah Siti, Ibrahim Mustaffa, Shahidan Shahiron, Ismail Noorli
Journal Article - IOP Conference Series: Earth and Environmental Science, Vol. 1022, Iss. 1
Abstract
3D printing concrete is an alternative technology for construction industry that are gaining interest among the developers and contractors worldwide. 3D printing concrete requires a good quality printing material that are buildable, strong and durable to be used as construction material. This present study uses Rice Husk Ash (RHA) as cement material replacement in in 3D printing concrete. Initial investigation was carried out to assess the suitability of RHA as cement replacement by conducting basic cement test such as cement consistency, setting time and workability of the mortar. The amount of RHA was constant at 20% used as cement replacement. From this study, the appropriate water-binder ratio of RHA cement replacement was 0.45:1. As for setting time, the time required for mortar mix to be transport and delivered through the nozzles for 3D printing was achieved by implemented the 20% RHA as cement replacement which are initial time at 155 minutes and final time at 312 minutes. The flowability of the mortar with RHA were found to be printable and achieve the requirements of mortar for 3D printing. Hence, RHA exhibits promising material to be used as cement replacement in 3D printing construction.
¶
8 References
- Hager Izabela, Golonka Anna, Putanowicz Roman (2016-08)
3D Printing of Buildings and Building Components as the Future of Sustainable Construction? - Jo Jun, Jo Byung, Cho Woohyun, Kim Jung-Hoon (2020-03)
Development of a 3D Printer for Concrete Structures:
Laboratory Testing of Cementitious Materials - Kashani Alireza, Ngo Tuan (2017-07)
Optimization of Mixture-Properties for 3D Printing of Geopolymer Concrete - Muthukrishnan Shravan, Kua Harn, Yu Ling, Chung Jacky (2020-05)
Fresh Properties of Cementitious Materials Containing Rice-Husk-Ash for Construction 3D Printing - Özalp Fatih, Yılmaz Halit (2020-03)
Fresh and Hardened Properties of 3D High-Strength Printing Concrete and Its Recent Applications - Papachristoforou Michail, Mitsopoulos Vasilios, Stefanidou Maria (2018-10)
Evaluation of Workability Parameters in 3D Printing Concrete - Valente Marco, Sibai Abbas, Sambucci Matteo (2019-09)
Extrusion-Based Additive Manufacturing of Concrete Products:
Revolutionizing and Remodeling the Construction Industry - Zhang Jingchuan, Wang Jialiang, Dong Sufen, Yu Xun et al. (2019-07)
A Review of the Current Progress and Application of 3D Printed Concrete
10 Citations
- Talukdar A., Belek Fialho Teixeira Müge, Fawzia Sabrina, Zahra Tatheer et al. (2026-01)
Investigation on the Fresh and Mechanical Properties of Low Carbon 3D Printed Concrete Incorporating Sugarcane Bagasse Ash and Microfibers - Sakolaree Natthanicha, Taweesint Jutamas, Sungsiri Krisana, Assawamankongcharoen Sirikamol et al. (2025-11)
Evaluation of Fresh and Mechanical Properties and Shrinkage of Hydrophobic Mortar Containing Microfiber for 3D Printing Technology - Panchal Priyanka, Choi Myoungsung (2025-07)
A Review on Effect of Natural Fibers to Mitigate CO2 Footprint and Enhance Engineering Properties of 3D Printing Concrete - Das B., Prathap Y., Sandeep Ankit, Vaghamshi Keval et al. (2025-05)
Reviewing the Materials Selection, Rheology, Durability, and Microstructural Characteristics of 3D Printed Concrete - Rudziewicz Magdalena, Maroszek Marcin, Hutyra Adam, Góra Michał et al. (2025-02)
Influence of Foaming Agents and Stabilizers on Porosity in 3D Printed Foamed Concrete - Skibicki Szymon, Federowicz Karol, Hoffmann Marcin, Chougan Mehdi et al. (2024-05)
Potential of Reusing 3D Printed Concrete (3DPC) Fine Recycled Aggregates as a Strategy Towards Decreasing Cement Content in 3DPC - Capêto Ana, Jesus Manuel, Uribe Braian, Guimarães Ana et al. (2024-05)
Building a Greener Future:
Advancing Concrete Production Sustainability and the Thermal Properties of 3D Printed Mortars - Gamage Kumari, Fawzia Sabrina, Zahra Tatheer, Teixeira Muge et al. (2024-02)
Advancement in Sustainable 3D Concrete Printing:
A Review on Materials, Challenges, and Current Progress in Australia - Riaz Raja, Usman Muhammad, Ali Ammar, Majid Usama et al. (2023-06)
Inclusive Characterization of 3D Printed Concrete in Additive Manufacturing:
A Detailed Review - Bhushan Jindal Bharat, Jangra Parveen (2023-05)
3D Printed Concrete:
A Comprehensive Review of Raw Material’s Properties, Synthesis, Performance, and Potential Field Applications
BibTeX
@article{sama_abdu_ibra_shah.2022.IPo3PCURHAaPCR,
author = "Nur Afifah Izzati Abd Samad and Siti Radziah Abdullah and Mustaffa Ibrahim and Shahiron Shahidan and Noorli Ismail",
title = "Initial Properties of 3D Printing Concrete Using Rice-Husk-Ash as Partial Cement Replacement",
doi = "10.1088/1755-1315/1022/1/012055",
year = "2022",
journal = "IOP Conference Series: Earth and Environmental Science",
volume = "1022",
number = "1",
}
Formatted Citation
N. A. I. A. Samad, S. R. Abdullah, M. Ibrahim, S. Shahidan and N. Ismail, “Initial Properties of 3D Printing Concrete Using Rice-Husk-Ash as Partial Cement Replacement”, IOP Conference Series: Earth and Environmental Science, vol. 1022, no. 1, 2022, doi: 10.1088/1755-1315/1022/1/012055.
Samad, Nur Afifah Izzati Abd, Siti Radziah Abdullah, Mustaffa Ibrahim, Shahiron Shahidan, and Noorli Ismail. “Initial Properties of 3D Printing Concrete Using Rice-Husk-Ash as Partial Cement Replacement”. IOP Conference Series: Earth and Environmental Science 1022, no. 1 (2022). https://doi.org/10.1088/1755-1315/1022/1/012055.