Litcius/Paper detail

Multi-material laser powder bed fusion: effects of build orientation on defects, material structure and mechanical properties

Jacklyn Griffis, Kazi Safowan Shahed, Kenneth C. Meinert, Burak Yılmaz, M. Lear, Guha Manogharan

2025npj Advanced Manufacturing31 citationsDOIOpen Access PDF

Abstract

Multi-Material Laser Powder Bed Fusion (MM-LPBF) offers a novel approach for fabricating high-resolution components with both spatially tailored material properties and design by leveraging selective powder deposition (SPD) in conventional LPBF processing. This study analyzes the effect of build orientation as a contributing factor to material compatibility, process-induced defects, and interfacial formation mechanisms to elucidate the process-structure-property framework for MM-LPBF. New MM-LPBF capabilities are demonstrated through a complex gyroid structure (904L stainless steel and bronze) for unique MM-LPBF signatures (e.g., melt pool characteristics, grain morphology, defects, and mechanical properties). Fracture mechanisms in MM-LPBF are investigated through multi-scale domain techniques, including flexural testing supported by digital image correlation (DIC), finite element analysis (FEA), and intermittent micro-CT. Findings from this study demonstrate the current technological opportunities and challenges in the adoption of MM-LPBF for a wide range of applications such as thermo-fluidic surfaces, solid-state energy storage, and biodegradable implants.

Topics & Concepts

FusionMaterials scienceLaserOrientation (vector space)Composite materialOpticsGeometryPhysicsMathematicsLinguisticsPhilosophyAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesEngineering Technology and Methodologies