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Towards full automation in 3D concrete printing construction: Development of an automated and inline sensor-printer integrated instrument for in-situ assessment of structural build-up and quality of concrete

Atta Ur Rehman, Ik-Gyeom Kim, Jung‐Hoon Kim

2024Developments in the Built Environment30 citationsDOIOpen Access PDF

Abstract

The realization of full automation in 3D Concrete Printing (3DCP) encounters numerous obstacles, notably the absence of automated and inline testing methodologies to measure the fresh properties at the construction site. To address this challenge, this study presents an automated device with multifunctional capabilities of conducting penetration, compression, shear, and tensile tests in inline mode. The developed system is integrated with a 3D printer and controlled from the main station. To validate the instrument performance, it was used for inline penetromtery testing to measure the structural build-up of printed layers, and its results were correlated with the conventional compressive and shear strength tests. Additionally, the responsiveness of the instrument to the material variation was validated. This research represents a substantial advancement for in-situ characterization of structural build-up and quality control, while also showcasing its potential utility in mix design development.

Topics & Concepts

Automation3D printing3d printerEngineeringData acquisitionMeasure (data warehouse)Instrumentation (computer programming)Systems engineeringComputer scienceMechanical engineeringOperating systemDatabaseInnovations in Concrete and Construction MaterialsAdditive Manufacturing and 3D Printing TechnologiesBuilding materials and conservation
Towards full automation in 3D concrete printing construction: Development of an automated and inline sensor-printer integrated instrument for in-situ assessment of structural build-up and quality of concrete | Litcius