Vivek V. Bhandarkar, Harshal Y. Shahare, Anand Prakash Mall, Puneet Tandon
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引用次数: 0
Abstract
Additive manufacturing (AM) or 3-dimensional (3D) printing processes have been adopted in several industrial sectors including aerospace, automotive, medical, architecture, arts and design, food, and construction for the past few decades due to their numerous advantages over other conventional subtractive manufacturing processes. However, some flaws and defects associated with 3D-printed components hinder its extensive adoption in industries. Therefore, real-time detection and elimination of these defects by analyzing the defects-causing process parameters is very important to obtain a defect-free final component. While global efforts are in progress to develop defect detection techniques with the rise of Industry 4.0, there is still a limited scope of comprehensive research that encapsulates various defect detection techniques in the AM sector on a global scale. Thus, this systematic review explores defects in parts manufactured via metallic and non-metallic AM processes. It covers traditional defect detection methods and extends to recent advanced machine learning (ML) and deep learning (DL) based techniques. The paper also delves into challenges associated with the implementation of ML and DL approaches for defect detection, providing a comprehensive understanding of the current state and future directions in AM research.
在过去的几十年里,增材制造(AM)或三维(3D)打印工艺因其相对于其他传统减材制造工艺的众多优势,已被航空航天、汽车、医疗、建筑、艺术设计、食品和建筑等多个工业领域所采用。然而,与 3D 打印组件相关的一些缺陷和瑕疵阻碍了其在工业领域的广泛应用。因此,通过分析导致缺陷的工艺参数来实时检测和消除这些缺陷,对于获得无缺陷的最终部件非常重要。随着工业 4.0 的兴起,全球都在努力开发缺陷检测技术,但在全球范围内,能囊括 AM 领域各种缺陷检测技术的综合研究范围仍然有限。因此,本系统综述探讨了通过金属和非金属 AM 工艺制造的零件中存在的缺陷。它涵盖了传统的缺陷检测方法,并扩展到最近基于机器学习(ML)和深度学习(DL)的先进技术。本文还深入探讨了与实施 ML 和 DL 方法进行缺陷检测相关的挑战,为 AM 研究的现状和未来方向提供了全面的了解。
期刊介绍:
The Journal of Nonlinear Engineering aims to be a platform for sharing original research results in theoretical, experimental, practical, and applied nonlinear phenomena within engineering. It serves as a forum to exchange ideas and applications of nonlinear problems across various engineering disciplines. Articles are considered for publication if they explore nonlinearities in engineering systems, offering realistic mathematical modeling, utilizing nonlinearity for new designs, stabilizing systems, understanding system behavior through nonlinearity, optimizing systems based on nonlinear interactions, and developing algorithms to harness and leverage nonlinear elements.
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