Litcius/Paper detail

Breaking the mould: achieving high-volume production output with additive manufacturing

Yuan Huang, Daniel Eyers, Mark Stevenson, Matthias Thürer

2021International Journal of Operations & Production Management30 citationsDOIOpen Access PDF

Abstract

Purpose The study aims to examine a discrepant industrial case that demonstrates how to achieve economies of scale with additive manufacturing (AM), thereby expanding the scope of AM beyond high-variety, customised production contexts. Design/methodology/approach Abductive reasoning is applied to analyse a case of using AM to compete with conventional production, winning a contract to supply 7,700,000 products. Comparing this case to existing theories and contemporary practices reveals new research directions and practical insights. Findings Economies of scale were realised through a combination of technological innovation and the adoption of operations management practices atypical of AM shops (e.g. design for volume, low-cost resource deployment and material flow optimisation). The former improved AM process parameters in terms of time, cost and dependability; the latter improved the entire manufacturing system, including non-AM operations/resources. This system-wide improvement has been largely overlooked in the literature, where AM is typically viewed as a disruptive technology that simplifies manufacturing processes and shortens supply chains. Originality/value It is empirically shown that an AM shop can achieve economies of scale and compete with conventional manufacturing in high-volume, standardised production contexts.

Topics & Concepts

Production (economics)Variety (cybernetics)Scope (computer science)Software deploymentEconomies of scaleScale (ratio)Industrial organizationDependabilityOriginalityResource (disambiguation)BusinessComputer scienceSupply chainManufacturing operationsOperations managementManufacturing engineeringEconomicsMarketingMicroeconomicsEngineeringLawOperating systemPolitical scienceQuantum mechanicsPhysicsArtificial intelligenceCreativityProgramming languageSoftware engineeringComputer networkAdditive Manufacturing and 3D Printing TechnologiesSustainable Supply Chain ManagementDigital Transformation in Industry