Unified integration approach for bridging BIM model to 3D construction printing and scale prototyping

Purpose This work aims to develop a multi-step approach for the unified integration of 3D construction printing (3DCP) and building information modeling (BIM), allowing users to easily and automatically outline the instructions for 3D printing of buildings starting from BIM model and ensuring the wide spread of this new technology in Civil Engineering sector. Design/methodology/approach The proposed methodology exploits Revit for 3D modeling and BIM, using Dynamo as a programming interface for generating G-code. Findings The paper demonstrates how the proposed methodology can extract information from a BIM model to support building construction using digital fabrication techniques. This code guides the printer’s movements and operations, specifying the path, speed, layers and essential parameters to construct concrete structures layer by layer. It transforms digital designs into precise and efficient physical structures. Practical implications This work allows overcoming some of the current limitations associated with bridging BIM models to 3D construction printing. The proposed approach integrates BIM and 3DCP. If the model undergoes changes in the BIM model, the proposed system allows for automatic updates in the 3D printing files. Furthermore, the possibility offered by the proposed methodology to test the G-code on a scaled model allows for the correction of any errors before printing on a large-scale machine. Originality/value The novelty of the proposed approach is threefold: i) A new unified integration methodology for BIM and 3D construction printing is defined; ii) An example of a 3D printed building unit is modeled with BIM, incorporating various discipline models such as Architecture, Structure, and Mechanical, Electrical, Plumbing (MEP) systems; iii) The proposed approach allows for testing the G-code at scale before printing with a full-scale machine. Graphical abstarct