Application-Oriented Digital Image Correlation for the High-Speed Deformation and Fracture Analysis of AISI 1045 and Ti6Al4V Materials

IF 12.2 1区 工程技术 Q1 MECHANICS Applied Mechanics Reviews Pub Date : 2022-10-05 DOI:10.3390/applmech3040068
L. Gerdes, S. Berger, J. Saelzer, Pascal Franck, Ramon Helwing, A. Zabel, F. Walther
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引用次数: 1

Abstract

In order to achieve realistic simulations of the chip formation, high quality input data regarding the flow stress and damage behavior of the materials are required. The split Hopkinson pressure bar (SHPB) test setup for the characterization of highly dynamic material properties offers a suitable method for generating high strain rates, similar to those in the chip formation zone. However, the strain measurement in SHPB is usually performed by means of strain gauges. This leads to an unreliable evaluation of strain rate and flow stress/shear flow stress in the case of an inhomogeneous material deformation, since this method presents the total strain whilst excluding local deformations. Inhomogeneous deformations are induced deliberately in special shear specimens, as they are also observed in the investigated cylindrical specimens. The present work deals with this issue by providing two additional measurement techniques, which are applied in SHPB tests for cylindrical specimens made of AISI 1045 and Ti6Al4V. To enable a local strain resolution, digital image correlation (DIC) is applied to high-speed images of the deformation process. In order to allow for the detection of shear bands in the specimens, a deep-learning-based approach is presented. The two measurement methods (strain gauges and DIC) are compared and discussed. In particular, the findings regarding the inhomogeneous deformation of Ti6Al4V allow for future improvements in the result quality of SHPB tests. The presented algorithm shows promising predictions for shear band detection and creates the basis for an automated evaluation of shear sample results, as well as an AI-based pre-selection of frames for the DIC evaluation of SHPB tests.
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面向应用的数字图像相关技术在AISI 1045和Ti6Al4V材料高速变形和断裂分析中的应用
为了实现切屑形成的真实模拟,需要关于材料的流动应力和损伤行为的高质量输入数据。用于表征高动态材料性能的分离式霍普金森压力棒(SHPB)测试装置提供了一种合适的方法来产生高应变率,类似于切屑形成区的应变率。然而,SHPB中的应变测量通常是通过应变片进行的。这导致在不均匀材料变形的情况下,应变率和流动应力/剪切流动应力的评估不可靠,因为这种方法给出了总应变,同时排除了局部变形。非均匀变形是在特殊剪切试样中引起的,因为它们也在所研究的圆柱形试样中观察到。目前的工作通过提供两种额外的测量技术来处理这个问题,这两种技术应用于由AISI 1045和Ti6Al4V制成的圆柱形试样的SHPB测试。为了实现局部应变分辨率,将数字图像相关(DIC)应用于变形过程的高速图像。为了检测试件中的剪切带,提出了一种基于深度学习的方法。对应变片和DIC两种测量方法进行了比较和讨论。特别是,关于Ti6Al4V的不均匀变形的研究结果允许未来改进SHPB测试的结果质量。所提出的算法显示了对剪切带检测的有希望的预测,并为剪切样品结果的自动评估以及基于人工智能的帧预选SHPB测试的DIC评估奠定了基础。
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来源期刊
CiteScore
28.20
自引率
0.70%
发文量
13
审稿时长
>12 weeks
期刊介绍: Applied Mechanics Reviews (AMR) is an international review journal that serves as a premier venue for dissemination of material across all subdisciplines of applied mechanics and engineering science, including fluid and solid mechanics, heat transfer, dynamics and vibration, and applications.AMR provides an archival repository for state-of-the-art and retrospective survey articles and reviews of research areas and curricular developments. The journal invites commentary on research and education policy in different countries. The journal also invites original tutorial and educational material in applied mechanics targeting non-specialist audiences, including undergraduate and K-12 students.
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