Published Online:June 2025
Product Name:The IUP Journal of Supply Chain Management
Product Type:Article
Product Code:IJSCM010625
DOI:10.71329/IUPJSCM/2025.22.2.5-38
Author Name:Prajan Sanku and Sarath Chandar Rao Sanku
Availability:YES
Subject/Domain:Management
Download Format:PDF
Pages:5-38
The supply chain for 3D printing materials faces significant challenges, including inconsistent material quality, fragmented supplier networks, and complex regulatory compliance. Material manufacturers for Fused Deposition Modeling (FDM), Stereolithography (SLA), Selective Laser Sintering (SLS), and Fused Granular Fabrication (FGF) technologies face unique logistical challenges, including market volatility in FDM, short resin shelf lives in SLA, batch management requirements in SLS, and irregular large-scale demand for FGF. These issues are further compounded by sourcing limitations and variability in recycled materials, which lead to inefficiencies and supply disruptions. This study examines these challenges through a qualitative analysis of academic literature, industry reports, regulatory frameworks such as REACH and RoHS, and standards including ASTM and ISO. To address these supply chain inefficiencies, tailored solutions are proposed: Just-in-Time (JIT) and dynamic Vendor-Managed Inventory (dVMI) for FDM, batch-based production and rolling forecasts for SLA, Batch-Specific Demand Planning for SLS, and Capacity Reservation strategies for FGF. Additionally, the integration of digital tools such as IoT tracking, predictive analytics, and real-time demand monitoring enhances efficiency, adaptability, and compliance. By focusing on material manufacturers rather than end-use applications, this study fills a critical gap in 3D printing supply chain research. It offers targeted strategies to optimize material sourcing, quality control, and regulatory adherence.
In recent years, additive manufacturing (AM), commonly known as 3D printing, has significantly reshaped industrial production by enabling rapid, cost-effective, and highly customizable manufacturing solutions. With applications spanning aerospace, healthcare, automotive, and consumer products, ‘additive manufacturing’ has transitioned from