Study of strain localizations in a polycrystalline medium in presence of a quasi-static crack

Fracture and Structural Integrity Pub Date : 2017-06-28 DOI:10.3221/IGF-ESIS.41.37

L. Patriarca, P. Luccarelli, S. Foletti

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Abstract

Numerical techniques have been widely applied in many recent works to investigate micro-scale behavior of materials. This work focuses on the analysis of strain localizations in a Nickel-based alloy, Haynes 230. Numerical models and experiments concern the study of the strain field generated around the crack tip inside a polycrystalline medium when the crack is quasi-static (not propagating). Experimentally, the tests were conducted in load control; one face of the specimens was monitored by high-resolution Digital Image Correlation (DIC) technique to evaluate the strain field ahead of the crack tip. The simulations were conducted adopting an open source finite element code, Warp3D, which implements a state of art Crystal Plasticity (CP) model. The models of the polycrystalline matrix were created considering the data obtained inspecting the specimen surface by the Electron Back-Scatter Diffraction (EBSD) technique, which allowed defining grains size and orientations. Experimental and numerical results were then compared in terms of strain localizations to evaluate the prediction capabilities of the models. The comparison focused on strain field extension and active grains.

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准静态裂纹存在下多晶介质中应变局部化的研究

近年来，数值技术被广泛应用于研究材料的微观尺度行为。本工作的重点是分析应变局部化镍基合金，海恩斯230。数值模型和实验研究了多晶介质中裂纹处于准静态(不扩展)状态时裂纹尖端周围产生的应变场。实验方面，进行了负荷控制试验;采用高分辨率数字图像相关(DIC)技术对试样的一面进行监测，评估裂纹尖端前的应变场。仿真采用开源有限元代码Warp3D进行，该代码实现了最先进的晶体塑性(CP)模型。利用电子背散射衍射(EBSD)技术检测样品表面获得的数据，建立了多晶基体的模型，该模型可以确定晶粒尺寸和取向。然后将实验结果与数值结果在应变局部化方面进行比较，以评估模型的预测能力。比较的重点是应变场扩展和活性晶粒。

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Fracture and Structural Integrity

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