Editorial: Recent Trends in Additive Manufacturing

Int. J. Autom. Technol. Pub Date : 2023-07-05 DOI:10.20965/ijat.2023.p0325

T. Furumoto, H. Sasahara

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Abstract

Additive manufacturing (AM) has undergone rapid development in the past decade. Owing to its capacity to produce complex and functional parts in various industries, it has been recognized as a remarkable scientific and industrial technique. It is used to enhance weight-saving production and reduce the number of parts, with metal-based AM techniques in particular being recognized as the most promising AM techniques developed thus far. This is because of their high potential for direct production through the selective solidification of metal materials from three-dimensional, computer-aided design data. The medical, aerospace, and part molding industries are some of the many expected to reap particular benefit from the ability to produce high-quality models with reduced manufacturing costs and lead times. The objective of this special issue is to collect recent research works focused on recent trends in AM. This issue includes 7 papers covering the following topics: - Metal-based powder bed fusion using a laser beam (PBF-LB/M) - Wire and arc-based AM (WAAM) - Fused deposition modeling (FDM) This special issue is expected to help readers understand the recent trends in AM, leading in turn to further research on AM. We deeply appreciate the contributions of all authors and thank the reviewers for their incisive efforts.

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社论:增材制造的最新趋势

增材制造(AM)在过去十年中经历了快速发展。由于它能够在各种工业中生产复杂的功能部件，它已被认为是一项了不起的科学和工业技术。它被用于提高减重生产和减少零件数量，特别是基于金属的AM技术被认为是迄今为止开发的最有前途的AM技术。这是因为它们具有很高的潜力，可以通过从三维、计算机辅助设计数据中选择凝固金属材料来直接生产。医疗、航空航天和零件成型行业是许多有望从生产高质量模型的能力中获得特别利益的行业之一，同时降低了制造成本和交货时间。本特刊的目的是收集最近的研究工作，重点关注AM的最新趋势。本期包括7篇论文，涵盖以下主题:-使用激光束的金属基粉末床熔融(PBF-LB/M) -基于线和弧的AM (WAAM) -熔融沉积建模(FDM)本特刊旨在帮助读者了解AM的最新趋势，从而进一步研究AM。我们对所有作者的贡献深表感谢，并感谢审稿人的精辟努力。

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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Int. J. Autom. Technol.

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