An overview of recent advancements in fibre-reinforced 3D printing concrete

Zhou, Yi; Althoey, Fadi; Alotaibi, Badr Saad; Gamil, Yaser; Iftikhar, Bawar

doi:10.3389/fmats.2023.1289340

Front. Mater.

2023

DOI: 10.3389/fmats.2023.1289340

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An overview of recent advancements in fibre-reinforced 3D printing concrete

Yi Zhou,

Fadi Althoey,

Badr Saad Alotaibi

et al.

Abstract: 3D printing, also known as additive manufacturing, has recently gained significant attention and popularity as a transformative technology across various industries. One area where 3D printing is making remarkable strides is in the construction field, particularly with the emergence of 3D printing concrete (3DPC). While 3DPC holds immense promise, there are still challenges to overcome, such as incorporating reinforcement. This study reviews the potential of using fibre reinforcement to overcome the challenge … Show more

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2024

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Cited by 2 publications

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Optimization of Foams—Polypropylene Fiber-Reinforced Concrete Mixtures Dedicated for 3D Printing

Rudziewicz,

Maroszek,

Setlak

et al. 2024

Materials

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The continued global urbanization of the world is driving the development of the construction industry. In order to protect the environment, intensive research has been carried out in recent years on the development of sustainable materials and ecological construction methods. Scientific research often focuses on developing building materials that are renewable, energy-efficient, and have minimal impact on the environment throughout their life cycle. Therefore, this article presents research results aimed at developing a concrete mixture using cement with reduced CO2 emissions. In the context of increasing ecological awareness and in line with European Union policy, the development of a mixture based on environmentally friendly cement is of key importance for the future development of the construction industry. The article compares the physical properties of two mixtures, their foaming possibilities, and the influence of the added polypropylene (PP) fibers on the strength properties of the produced composites. It was found that bending strength and compressive strength were highest in the material with silica fume and aluminum powder at 5.36 MPa and 28.76 MPa, respectively. Microscopic analysis revealed significant pore structure differences, with aluminum foamed samples having regular pores and hydrogen peroxide foamed samples having irregular pores. Optimizing aluminum powder and water content improved the materials’ strength, crucial for maintaining usability and achieving effective 3D printing. The obtained results are important in the development of research focused on the optimization of 3D printing technology using concrete.

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Optimization of Foams—Polypropylene Fiber-Reinforced Concrete Mixtures Dedicated for 3D Printing

Rudziewicz,

Maroszek,

Setlak

et al. 2024

Materials

View full text Add to dashboard Cite

show abstract

Integrating Recycled and Alternative Materials in 3D Concrete Printing for Sustainable Development

Prodhan,

Hassan,

Akter

et al. 2024

ejtas

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3DCP changes the face of construction. It also increases design flexibility, independence from labor, and environmental sustainability. This paper presents research based on some 3DPCs replacing conventional materials with green concrete materials, including aggregates from waste, plastic and rubber materials, recycled glass, geopolymers, and supplementary cementitious materials. These materials reduce carbon emissions and resource depletion, with properties such as tensile strength and durability similar to or better than those of ordinary concrete. Several barriers still need to be overcome, such as material variability, while mechanical anisotropy, scalability constraints, and high equipment costs are other significant factors. For 3DPC to play its full role in achieving the goals of sustainable construction, these barriers should be reduced to a minimum by mixing design optimization, standardization processes, and innovative production techniques.

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An overview of recent advancements in fibre-reinforced 3D printing concrete

Cited by 2 publications

References 151 publications

Optimization of Foams—Polypropylene Fiber-Reinforced Concrete Mixtures Dedicated for 3D Printing

Optimization of Foams—Polypropylene Fiber-Reinforced Concrete Mixtures Dedicated for 3D Printing

Integrating Recycled and Alternative Materials in 3D Concrete Printing for Sustainable Development

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