In Situ Observation of Strained Bands and Ductile Damage in Thin AA2139-T3 Alloy Sheets

Procedia IUTAM Pub Date : 2017-01-01 DOI:10.1016/j.piutam.2017.03.009

Ante Buljac , Thibault Taillandier-Thomas , Thilo F. Morgeneyer , Lukas Helfen , Stéphane Roux , François Hild

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Abstract

The interactions between plasticity and damage mechanisms are not clearly established concerning the fracture of ductile sheet materials (e.g., flat to slant transition). The question addressed herein is to elucidate which mechanism is responsible for localized phenomena leading to the final failure. A mechanical test carried out on a notched plate made of 2139-T3 aluminum alloy is imaged thanks to synchrotron laminography at micrometer resolution. Ductile damage (i.e., void nucleation, growth and coalescence) is analyzed via reconstructed volumes. Although the low volume fraction of secondary phases in the tested alloy is challenging, digital volume correlation is also utilized to measure displacement fields and estimate strain fields in the bulk of the alloy during the whole test. In the first part of this study, the resolution of the measurement technique is assessed under such conditions. Then strained bands are shown to occur very early on in what will be the slant region of the fracture path. Conversely, damage grows at very late loading steps.

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AA2139-T3合金薄板应变带及韧性损伤的原位观察

塑性与损伤机制之间的相互作用对于延性板材材料的断裂(例如，平向斜过渡)尚未明确建立。这里讨论的问题是阐明哪一种机制是导致最终失效的局部现象的原因。利用同步加速器层析成像技术，对2139-T3铝合金缺口板进行了力学试验。塑性损伤(即孔洞成核、生长和聚并)通过重构体积进行分析。虽然测试合金中二次相的低体积分数具有挑战性，但在整个测试过程中，数字体积相关也用于测量合金的位移场和估计应变场。在本研究的第一部分中，在这种条件下评估了测量技术的分辨率。然后，应变带在断裂路径的倾斜区域很早就出现了。相反，损伤在非常晚的加载阶段增加。

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