The Digital Transformation of Logistics. Группа авторов
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      From the 1990s on, the technology evolved from rapid prototyping, focused on formal and functional prototypes, over rapid manufacturing, with a focus on final parts, to AM, where the target is mass production and hybrid manufacturing (Monzón et al. 2019). Each stage was accompanied by a varying degree of frequently overly optimistic extravagant publicity and promotion. For instance, the 3D printing technology developer and manufacturer Formlabs explained that “while AM technologies have been around since the 1980s, the industry went through its most striking hype cycle during the early 2010s, when promoters claimed that the technology would find broad usage in consumer applications and reorder businesses from The Home Depot to UPS. Since the breathless hype subsided a few years ago, professional 3D printing technologies have been rapidly maturing in many concrete ways” (Formlabs 2020a).

Bar chart depicts global AM revenues.

      Source: Based on Fan et al. (2020). © John Wiley & Sons.

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Schematic illustration of hype cycle for AM.

      Source: Based on Fenn et al. (2018) and Basiliere and Shanler (2019). © John Wiley & Sons.

      Other technologies are just at the Innovation Trigger state, where early proof‐of‐concept stories and media interest trigger significant publicity although no usable products exist and commercial viability is unproven (Gartner 2020). For example, in nanoscale AM, parts can be produced with a depth resolution of 175 nm (Saha et al. 2019). This would allow for the production of flexible electronics, electrochemical interfaces, micro‐optics, and other micro‐ or nanostructures (Boissonneault 2019). Another technology at this maturity stage is 4D printing, a new process that entails multi‐material prints with the capability to transform over time. Here, manufactured structures are programmably active and can transform independently, instead of being simple static objects (Tibbits 2014). Furthermore, AM organ transplants (also referred to as 3D bioprinting) could open a new world of possibilities for the medical field. Instead of taking the risk of the body rejecting a transplanted organ or waiting until a suitable donor hopefully appears at some point in time, this technology would allow a patient to have an organ fabricated specifically to them to replace their faulty ones (Ng et al. 2019).

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