Study on Available Cloud Manufacturing Platforms for Additive Manufacturing Technologies

Matthias Milan Strljic, Islam Younes, O. Riedel
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Abstract

Additive manufacturing technologies provided one of the most adaptable manufacturing processes for digital commissioning via the growing cloud manufacturing paradigm. This was facilitated by a low-complexity tool chain for the manufacturing process along the CAD-CAM chain and the process to be executed on the equipment. However, additive processes have grown far beyond the initial FDM processes and also offer more complex materials with unique properties in addition to other processes. The four most common manufacturing processes FDM, SLA, SLS, and SLM were used as a basis, and existing cloud manufacturing platforms offering all these four technologies as a bundle were gathered via a structured survey. Out of 42 platforms, 17 platforms were researched, filtered and analyzed using sample components and a catalog of requirements consisting of five requirement clusters: material, functional scope, final costs, delivery and user-friendliness. The results were weighted for each technology and finally evaluated in an overarching discussion. The achieved scores and the special features of a platform are discussed and a recommendation is made.
面向增材制造技术的可用云制造平台研究
通过不断发展的云制造模式,增材制造技术为数字化调试提供了最具适应性的制造工艺之一。这得益于沿CAD-CAM链的制造过程的低复杂性工具链和在设备上执行的过程。然而,添加剂工艺已经远远超出了最初的FDM工艺,并且除了其他工艺外,还提供了具有独特性能的更复杂的材料。本研究以FDM、SLA、SLS和SLM四种最常见的制造工艺为基础,并通过结构化调查收集了现有的云制造平台,将所有这四种技术捆绑在一起。在42个平台中,使用样本组件和由五个需求集群组成的需求目录对17个平台进行了研究、过滤和分析:材料、功能范围、最终成本、交付和用户友好性。对每种技术的结果进行加权,最后在总体讨论中进行评估。讨论了所取得的成绩和某平台的特点,并提出了建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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