A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Advancements in sustainability of 3D concrete printing: Presenting low-carbon mixtures for additively manufactured concrete structures in practice
3D concrete printing (3DCP) is regarded as an environmentally friendly construction technique with minimum waste generation. However, challenges persist, particularly in the composition of 3D printable concrete mixtures. The need for specific rheological properties and printer system resolutions have led to a higher volume fraction of binder materials compared to conventional concrete. This in turn, poses challenges to the environmental and economic sustainability of 3DCP. The scientific community is actively addressing these concerns by striving to enhance 3D printable concrete mixtures. The focus is on replacing traditional components such as ordinary Portland cement and natural aggregates with more sustainable alternatives such as supplementary cementitious materials, sourced from diverse waste streams, and construction and demolition waste. Researchers are developing innovative 3D printable concrete mixtures that incorporate locally available low-carbon materials. The primary goal is to achieve the necessary rheological properties for 3D printing while mitigating the environmental impact associated with high cement content. By exploring alternative materials and optimising mix designs, the scientific community aims to strike a balance between the structural requirements of 3DCP and the imperative for environmentally responsible construction practices. This study assesses the practical feasibility of different low-carbon 3D printable concrete formulations identified in existing literature. Our investigation focuses on crucial factors such as strength requirements, material costs, and the carbon footprint associated with these concrete mixes. The methodology involves evaluating the reported strengths of various low-carbon 3D printable concrete formulations from existing literature and calculating the corresponding reduced carbon footprint. The study aims to evaluate the practicality of these formulations in real-world scenarios, particularly when compared to the specifications set by completed projects that ...
Advancements in sustainability of 3D concrete printing: Presenting low-carbon mixtures for additively manufactured concrete structures in practice
3D concrete printing (3DCP) is regarded as an environmentally friendly construction technique with minimum waste generation. However, challenges persist, particularly in the composition of 3D printable concrete mixtures. The need for specific rheological properties and printer system resolutions have led to a higher volume fraction of binder materials compared to conventional concrete. This in turn, poses challenges to the environmental and economic sustainability of 3DCP. The scientific community is actively addressing these concerns by striving to enhance 3D printable concrete mixtures. The focus is on replacing traditional components such as ordinary Portland cement and natural aggregates with more sustainable alternatives such as supplementary cementitious materials, sourced from diverse waste streams, and construction and demolition waste. Researchers are developing innovative 3D printable concrete mixtures that incorporate locally available low-carbon materials. The primary goal is to achieve the necessary rheological properties for 3D printing while mitigating the environmental impact associated with high cement content. By exploring alternative materials and optimising mix designs, the scientific community aims to strike a balance between the structural requirements of 3DCP and the imperative for environmentally responsible construction practices. This study assesses the practical feasibility of different low-carbon 3D printable concrete formulations identified in existing literature. Our investigation focuses on crucial factors such as strength requirements, material costs, and the carbon footprint associated with these concrete mixes. The methodology involves evaluating the reported strengths of various low-carbon 3D printable concrete formulations from existing literature and calculating the corresponding reduced carbon footprint. The study aims to evaluate the practicality of these formulations in real-world scenarios, particularly when compared to the specifications set by completed projects that ...
Advancements in sustainability of 3D concrete printing: Presenting low-carbon mixtures for additively manufactured concrete structures in practice
2024-01-01
Article (Journal)
Electronic Resource
English
The realities of additively manufactured concrete structures in practice
| Elsevier | 2022