Transitioning additive manufacturing from rapid prototyping to high-volume production: A case study of complex final products

IF 10.1 1区 管理学 Q1 BUSINESS
Samuel Roscoe, Paul D. Cousins, Robert Handfield
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引用次数: 3

Abstract

This paper seeks answers to the question: what are the key factors that enable the scaling of additive manufacturing (AM) from rapid prototyping to high-volume production? Using a longitudinal case study, we collected primary and secondary data to trace the AM scaling journey of AeroCo, a highly innovative aerospace firm. Based on the case findings, we position AM as a whole system technology because it can print components for a wide range of subsystems in a complex final product. Scaling AM requires a significant realignment of existing, and often deeply entrenched, new technology, and product development processes. To achieve this alignment, AeroCo formed institutional alliances with the UK government and universities to establish university technology centers, which facilitated early stage ideation and “catapult” centers, which enabled high-volume testing in factory-like facilities. The case reveals how multiple functions needed to integrate, including research and development, product design, and future programs, to ensure that design changes cascaded from one subsystem to another, and that new technologies were linked to a future product to create a final product pull. These findings inform a managerial framework for additive manufacturing scaling that is generalizable to other digital technologies used in the design and production of complex final products, including artificial intelligence, machine learning, smart factories, and cyber physical production systems. Our framework contributes to innovation thought and practice by explaining how new product development processes and organizational structures change under the effect of digital technologies.

Abstract Image

增材制造从快速原型到大批量生产的转变:复杂最终产品的案例研究
本文寻求这个问题的答案:使增材制造(AM)从快速原型到大批量生产的关键因素是什么?通过纵向案例研究,我们收集了主要和次要数据,以追踪AeroCo的AM扩展历程,AeroCo是一家高度创新的航空航天公司。根据案例发现,我们将AM定位为一种整体系统技术,因为它可以在复杂的最终产品中打印各种子系统的组件。扩展AM需要对现有的、通常根深蒂固的新技术和产品开发流程进行重大调整。为了实现这一结盟,AeroCo与英国政府和大学结成了机构联盟,建立了大学技术中心,这有助于早期构思和“弹射”中心,从而能够在工厂般的设施中进行大规模测试。该案例揭示了需要如何集成多个功能,包括研发、产品设计和未来计划,以确保设计更改从一个子系统级联到另一个子系统,并确保新技术与未来产品相关联,从而产生最终的产品吸引力。这些发现为增材制造规模化的管理框架提供了信息,该框架可推广到复杂最终产品设计和生产中使用的其他数字技术,包括人工智能、机器学习、智能工厂和网络物理生产系统。我们的框架通过解释新产品开发流程和组织结构如何在数字技术的影响下发生变化,有助于创新思维和实践。
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来源期刊
Journal of Product Innovation Management
Journal of Product Innovation Management 管理科学-工程:工业
CiteScore
17.00
自引率
5.70%
发文量
42
审稿时长
6-12 weeks
期刊介绍: The Journal of Product Innovation Management is a leading academic journal focused on research, theory, and practice in innovation and new product development. It covers a broad scope of issues crucial to successful innovation in both external and internal organizational environments. The journal aims to inform, provoke thought, and contribute to the knowledge and practice of new product development and innovation management. It welcomes original articles from organizations of all sizes and domains, including start-ups, small to medium-sized enterprises, and large corporations, as well as from consumer, business-to-business, and policy domains. The journal accepts various quantitative and qualitative methodologies, and authors from diverse disciplines and functional perspectives are encouraged to submit their work.
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