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当数字遇上实体创新:反向瓶颈与3D打印未实现的梦想

Where digital meets physical innovation: Reverse salients and the unrealized dreams of3Dprinting

Journal of Product Innovation Management · 2023
被引 22
ABS 4

中文导读

本文分析了3D打印技术进展缓慢的原因,指出其作为信息物理系统存在多个难以解决的反向瓶颈,并对比了预测与实际能力在六个关键领域的差距,为未来研究提供了更现实的视角。

Abstract

Abstract For more than three decades, enthusiasts have predicted that direct manufacturing enabled by 3D printing would inevitably supplant traditional manufacturing methods. Alas, for nearly as long, these utopian predictions have failed to materialize. One reason is a flawed assumption that hybrid digital‐physical systems such as 3D printing would advance as rapidly as purely digital innovations enabled by Moore's law. Instead, like other examples of cyber‐physical systems (CPSs), technological progress in 3D printing faces inherent limitations that are emblematic of the differences between CPSs and purely digital innovations. As with any complex CPS, improved performance of a 3D printing system has been limited by that of its key components—the sort of limiting problem previously defined as a reverse salient. Unlike previously studied technologies, several reverse salients for 3D printing performance have neither resolved nor signs of resolving soon. Here we analyze these key reverse salients, and show how they have hampered the suitability of 3D printing for direct manufacturing and other predicted applications. We contrast predicted versus actual capabilities for 3D printing‐enabled transformation in six key areas: product innovation, mass customization, home fabrication, distributed manufacturing, supply chain optimization and business model innovation. From this, we suggest opportunities for greater realism in future 3D printing research, as well as broader implications for our understanding of CPSs and reverse salients.

3D打印数字制造信息物理系统技术创新