Litcius/Paper detail

Optimised and 3D printed steel garden bridge: from design to experimental verification

Ben Weber, Xin Meng, Leroy Gardner

2025Automation in Construction15 citationsDOIOpen Access PDF

Abstract

Wire-arc directed energy deposition (DED-Arc), or wire arc additive manufacturing (WAAM), enables large-scale, intricate metallic components to be created in an automated manner, with great promise in construction. This paper presents the design, manufacture and experimental verification of a 4 m-span, East Asian garden bridge-inspired and structurally optimised DED-Arc steel pedestrian bridge. The bridge consists of optimised DED-Arc steel tubular components as the main load-carrying structure, and wooden boards on top as the decking. The structural performance of the bridge was examined through non-destructive testing of the fully assembled bridge up to the design load and destructive testing to failure of a duplicate of the main arch, which confirmed the load-carrying capacity of the bridge and showed generally good correlation with the prior numerical simulations. This study successfully demonstrates the feasibility of integrating DED-Arc with structural optimisation at scale, and its significant role in construction automation and decarbonisation. • 4 m-span structurally optimised steel bridge designed and fabricated using DED-Arc. • Main structure topology optimised, rationalised and refined through sizing optimisation. • 3D laser scanning verified geometric accuracy of printed bridge components. • Physical testing confirmed load-carrying capacity and high structural efficiency. • Experimental results showed good overall agreement with prior numerical simulations.

Topics & Concepts

Bridge (graph theory)EngineeringStructural engineeringSizingAutomation3d printedMechanical engineeringEngineering drawingPrinted circuit boardElectronic design automationHigh strength steelSolid modelingFinite element methodComputer scienceFused deposition modeling3D Surveying and Cultural HeritageInnovations in Concrete and Construction MaterialsBIM and Construction Integration