Additive manufacturing (AM), otherwise referred to as 3D printing, has rapidly grown and is considered a core element in the digitalization of supply chain management. It allows for localized and on-demand production, reducing dependence on central storages and mass manufacturing. AM is transforming how modern supply chains operate by enabling more flexible, localized, and sustainable production. The rapid evolution of AM has begun to reshape traditional supply chain models across multiple industries. By enabling localized, on-demand, and customized production, 3D printing challenges conventional approaches to sourcing, inventory management, and logistics. This review analysis current research and industrial applications to examine the transformative impact of 3D printing on supply chain design, efficiency, and sustainability. Key findings highlight that additive manufacturing can significantly reduce lead times, lower transportation and inventory costs, and enhance supply chain agility. Moreover, it supports sustainability goals by minimizing waste and carbon emissions through shorter, localized supply networks. It also discusses how AM helps organizations respond to disruptions while highlighting new risks, such as cybersecurity threats and quality control issues. By analyzing findings from academic sources, this review identifies both the opportunities and limitations of AM adoption. Overall, the literature shows that AM can make supply chains more agile, environmentally friendly, and resilient when combined with strong digital infrastructure and proper management practices. However, challenges remain in standardization, cost, and integration across industries.
Сабер et al. (Wed,) studied this question.