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Autore principale: Arbabian, Mohammad Ebrahim
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2506.10198
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author Arbabian, Mohammad Ebrahim
author_facet Arbabian, Mohammad Ebrahim
contents This paper explores the integration of Additive Manufacturing (or 3D printing) into decentralized supply chains, focusing on the strategic decisions manufacturers and retailers make when facing capacity constraints. Using a Stackelberg game framework, we analyze how AM impacts traditional wholesale pricing across two scenarios. First, a manufacturer producing two distinct products and second, a case involving multiple products, each affected by AM's capacity limitations. For the first scenario, we derive sufficient conditions to find the equilibrium under a generic demand distribution, and for a uniform distribution, we fully derive the equilibrium and identify the critical cost threshold below which AM adoption is preferable. For the second scenario, we determine the conditions for the equilibrium, offering insights into the feasibility of AM relative to traditional manufacturing. Furthermore, we find that, contrary to some literature, even when AM incurs higher per-unit costs than traditional methods, it remains viable for some supply chains. However, limited AM capacity, particularly under high demand, may restrict its adoption, highlighting capacity constraints as a pivotal factor in AM decision-making. This study extends current research by examining multi-product and capacity-driven scenarios, providing valuable guidance for supply chain managers weighing the benefits of traditional manufacturing against those of AM.
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publishDate 2025
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spellingShingle Strategic Adoption of 3D Printing in Multi-Product Supply Chains: Cost and Capacity Considerations
Arbabian, Mohammad Ebrahim
Optimization and Control
This paper explores the integration of Additive Manufacturing (or 3D printing) into decentralized supply chains, focusing on the strategic decisions manufacturers and retailers make when facing capacity constraints. Using a Stackelberg game framework, we analyze how AM impacts traditional wholesale pricing across two scenarios. First, a manufacturer producing two distinct products and second, a case involving multiple products, each affected by AM's capacity limitations. For the first scenario, we derive sufficient conditions to find the equilibrium under a generic demand distribution, and for a uniform distribution, we fully derive the equilibrium and identify the critical cost threshold below which AM adoption is preferable. For the second scenario, we determine the conditions for the equilibrium, offering insights into the feasibility of AM relative to traditional manufacturing. Furthermore, we find that, contrary to some literature, even when AM incurs higher per-unit costs than traditional methods, it remains viable for some supply chains. However, limited AM capacity, particularly under high demand, may restrict its adoption, highlighting capacity constraints as a pivotal factor in AM decision-making. This study extends current research by examining multi-product and capacity-driven scenarios, providing valuable guidance for supply chain managers weighing the benefits of traditional manufacturing against those of AM.
title Strategic Adoption of 3D Printing in Multi-Product Supply Chains: Cost and Capacity Considerations
topic Optimization and Control
url https://arxiv.org/abs/2506.10198