Skip to content

Innovative Early-Age Mechanical Properties of 3D Printable Mortar Enhanced with SBR-Latex and Kaolin (2024-11)

10.1080/19648189.2024.2425974

 Yasin Mazhar, Siddiqi Zahid,  Ur Rehman Atteq, Noshin Sadaf,  Shahzad Aslam Hafiz
Journal Article - European Journal of Environmental and Civil Engineering, pp. 1-23

Abstract

As the global population has continued to grow, the costs and environmental issues associated with traditional construction materials like cement and river sand have become increasingly problematic. This study explores the innovative enhancement of early-age mechanical properties of 3D-printable mortar through the incorporation of Styrene-Butadiene Rubber (SBR) latex and kaolin. Various sands (Lawrencepur, Chenab, and Ravi) were tested at 120 min for compressive stress, direct shear strength, Young’s Modulus, and Shear Modulus. Lawrencepur Sand exhibited the highest compressive stress (206.75 kPa) and shear strength (74.60 kPa), followed by Chenab Sand and Ravi Sand. Young’s Modulus values were highest in Lawrencepur Sand (7.93 MPa), indicating superior stiffness, while Shear Modulus was highest in Chenab Sand (3.79 MPa). Ravi Sand, despite lower mechanical strengths, was found optimal for printable mortar due to its fine particle size and desirable texture. The incorporation of SBR latex and kaolin resulted in reduced maximum deflection and enhanced load-bearing capacity over time, with Lawrencepur Sand containing 99.64% sand particles and minimal silt bearing the ultimate load effectively. This study highlights the potential of SBR latex and kaolin in improving the early-age mechanical properties and suitability of sands for 3D-printable mortar, providing a balance between mechanical performance and printability.

22 References

  1. Bos Freek, Wolfs Robert, Ahmed Zeeshan, Salet Theo (2016-08)
    Additive Manufacturing of Concrete in Construction:
    Potentials and Challenges of 3D Concrete Printing
  2. Ding Tao, Xiao Jianzhuang, Qin Fei, Duan Zhenhua (2020-03)
    Mechanical Behavior of 3D Printed Mortar with Recycled Sand at Early-Ages
  3. Jayathilakage Roshan, Sanjayan Jay, Rajeev Pathmanathan (2019-01)
    Direct-Shear-Test for the Assessment of Rheological Parameters of Concrete for 3D Printing Applications
  4. Khan Mohd (2020-04)
    Mix Suitable for Concrete 3D Printing:
    A Review
  5. Labonnote Nathalie, Rønnquist Anders, Manum Bendik, Rüther Petra (2016-09)
    Additive Construction:
    State of the Art, Challenges and Opportunities
  6. Moeini Mohammad, Hosseinpoor Masoud, Yahia Ammar (2020-05)
    Effectiveness of the Rheometric Methods to Evaluate the Build-Up of Cementitious Mortars Used for 3D Printing
  7. Nerella Venkatesh, Beigh Mirza, Fataei Shirin, Mechtcherine Viktor (2018-11)
    Strain-Based Approach for Measuring Structural Build-Up of Cement-Pastes in the Context of Digital Construction
  8. Panda Biranchi, Lim Jian, Tan Ming (2019-02)
    Mechanical Properties and Deformation Behavior of Early-Age Concrete in the Context of Digital Construction
  9. Perkins Isaac, Skitmore Martin (2015-03)
    Three-Dimensional Printing in the Construction Industry:
    A Review
  10. Ramezani Amir, Modaresi Shahriar, Dashti Pooria, Givkashi Mohammad et al. (2023-04)
    Effects of Different Types of Fibers on Fresh and Hardened Properties of Cement and Geopolymer-Based 3D Printed Mixtures:
    A Review
  11. Razzaghian Ghadikolaee Mehrdad, Cerro-Prada Elena, Pan Zhu, Korayem Asghar (2023-04)
    Nanomaterials as Promising Additives for High-Performance 3D Printed Concrete:
    A Critical Review
  12. Rehman Atta, Kim Jung-Hoon (2021-07)
    3D Concrete Printing:
    A Systematic Review of Rheology, Mix Designs, Mechanical, Microstructural, and Durability Characteristics
  13. Rubin Ariane, Hasse Jéssica, Repette Wellington (2021-01)
    The Evaluation of Rheological Parameters of 3D Printable Concretes and the Effect of Accelerating-Admixture
  14. Sikora Paweł, Chung Sang-Yeop, Liard Maxime, Lootens Didier et al. (2021-02)
    The Effects of Nano-Silica on the Fresh and Hardened Properties of 3D Printable Mortars
  15. Sikora Paweł, Techman Mateusz, Federowicz Karol, Khayatt Ahmed et al. (2022-07)
    Insight into the Microstructural and Durability Characteristics of 3D Printed Concrete:
    Cast versus Printed Specimens
  16. Singh Narinder, Colangelo Francesco, Farina Ilenia (2023-06)
    Sustainable Non-Conventional Concrete 3D Printing:
    A Review
  17. Tarhan Yeşim, Şahin Remzi (2021-05)
    Fresh and Rheological Performances of Air-Entrained 3D Printable Mortars
  18. Teixeira João, Schaefer Cecília, Rangel Bárbara, Alves Jorge et al. (2021-03)
    Development of 3D Printing Sustainable Mortars Based on a Bibliometric Analysis
  19. Wolfs Robert, Bos Freek, Salet Theo (2018-02)
    Early-Age Mechanical Behaviour of 3D Printed Concrete:
    Numerical Modelling and Experimental Testing
  20. Yuan Qiang, Li Zemin, Zhou Dajun, Huang Tingjie et al. (2019-08)
    A Feasible Method for Measuring the Buildability of Fresh 3D Printing Mortar
  21. Zahabizadeh Behzad, Pereira João, Gonçalves Claúdia, Pereira Eduardo et al. (2021-03)
    Influence of the Printing-Direction and Age on the Mechanical Properties of 3D Printed Concrete
  22. Zhang Chao, Jia Zijian, Luo Zhe, Deng Zhicong et al. (2022-11)
    Printability and Pore-Structure of 3D Printing Low-Carbon Concrete Using Recycled Clay-Brick-Powder with Various Particle-Features

0 Citations

BibTeX 
@article{yasi_sidd_urr_nosh.2024.IEAMPo3PMEwSLaK,
  author            = "Mazhar Yasin and Zahid Ahmad Siddiqi and Atteq Ur Rehman and Sadaf Noshin and Hafiz Muhammad Shahzad Aslam",
  title             = "Innovative Early-Age Mechanical Properties of 3D Printable Mortar Enhanced with SBR-Latex and Kaolin",
  doi               = "10.1080/19648189.2024.2425974",
  year              = "2024",
  journal           = "European Journal of Environmental and Civil Engineering",
  pages             = "1--23",
}
Formatted Citation

M. Yasin, Z. A. Siddiqi, A. U. Rehman, S. Noshin and H. M. S. Aslam, “Innovative Early-Age Mechanical Properties of 3D Printable Mortar Enhanced with SBR-Latex and Kaolin”, European Journal of Environmental and Civil Engineering, pp. 1–23, 2024, doi: 10.1080/19648189.2024.2425974.

Yasin, Mazhar, Zahid Ahmad Siddiqi, Atteq Ur Rehman, Sadaf Noshin, and Hafiz Muhammad Shahzad Aslam. “Innovative Early-Age Mechanical Properties of 3D Printable Mortar Enhanced with SBR-Latex and Kaolin”. European Journal of Environmental and Civil Engineering, 2024, 1–23. https://doi.org/10.1080/19648189.2024.2425974.