面向金属增材制造的数字螺纹和数据包。

IF 0.8 Q4 ENGINEERING, MANUFACTURING Smart and Sustainable Manufacturing Systems Pub Date : 2017-01-01 Epub Date: 2017-02-28 DOI:10.1520/SSMS20160003
D B Kim, P Witherell, Y Lu, S Feng
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引用次数: 32

摘要

增材制造(AM)已被许多人设想为下一次工业革命的驱动因素。采用增材制造的潜在好处包括小批量、定制、复杂零件/产品的生产、供应链效率、缩短上市时间和环境可持续性。然而,增材制造要达到完全生产就绪的技术状态,仍有工作要做。虽然创建独特3D几何形状的能力已得到普遍证明,但生产挑战仍然存在,包括缺乏(1)通过信息管理系统的数据可管理性,(2)可追溯性以提高产品可生产性,过程可重复性和零件对零件可再现性,以及(3)通过成熟的认证和资格认证方法的问责制。为了在一定程度上解决这些挑战,本文讨论了数据模型的构建,以支持AM中验证和一致性方法的开发。我们提出了一个增材制造信息图,利用信息学来促进增材制造过程中的零件可生产性、过程可重复性和零件对零件可再现性。我们提出了三个独立的案例研究,以证明通过AM数字线程建立基线数据结构和零件来源的重要性。
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Toward a Digital Thread and Data Package for Metals-Additive Manufacturing.

Additive manufacturing (AM) has been envisioned by many as a driving factor of the next industrial revolution. Potential benefits of AM adoption include the production of low-volume, customized, complicated parts/products, supply chain efficiencies, shortened time-to-market, and environmental sustainability. Work remains, however, for AM to reach the status of a full production-ready technology. Whereas the ability to create unique 3D geometries has been generally proven, production challenges remain, including lack of (1) data manageability through information management systems, (2) traceability to promote product producibility, process repeatability, and part-to-part reproducibility, and (3) accountability through mature certification and qualification methodologies. To address these challenges in part, this paper discusses the building of data models to support the development of validation and conformance methodologies in AM. We present an AM information map that leverages informatics to facilitate part producibility, process repeatability, and part-to-part reproducibility in an AM process. We present three separate case studies to demonstrate the importance of establishing baseline data structures and part provenance through an AM digital thread.

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来源期刊
Smart and Sustainable Manufacturing Systems
Smart and Sustainable Manufacturing Systems ENGINEERING, MANUFACTURING-
CiteScore
2.50
自引率
0.00%
发文量
17
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