СВЕРХПЛАСТИЧЕСКОЕ ПОВЕДЕНИЕ АЛЮМИНИЕВОГО СПЛАВА 1420 С МЕЛКОЗЕРНИСТОЙ СТРУКТУРОЙ

Korznikova, Galia Ferdinandovna and Khalikova, Gulinara Rashidovna and Mironov, Sergey Yurievich and Aletdinov, Ainur Faradatovich and Korznikova, Elena Aleksandrovna and Konkova, T.N. and Myshlyaev, Mikhail Mikhailovich (2022) СВЕРХПЛАСТИЧЕСКОЕ ПОВЕДЕНИЕ АЛЮМИНИЕВОГО СПЛАВА 1420 С МЕЛКОЗЕРНИСТОЙ СТРУКТУРОЙ. Physical Mesomechanics, 25 (2). pp. 47-55. ISSN 1683-805X (https://doi.org/10.55652/1683-805X_2022_25_2_47)

[thumbnail of Korznikova-etal-PM-2022-Superplastic-behavior-of-fine-grained-Al-Mg-Li-alloy]
Preview
 Text. Filename: Korznikova_etal_PM_2022_Superplastic_behavior_of_fine_grained_Al_Mg_Li_alloy.pdf
Accepted Author Manuscript
License: Strathprints license 1.0
Download (5MB)| Preview

Abstract

The superplastic behavior of fine-grained 1420 Al-Mg-Li alloy was investigated using a modern electron microscopy technique based on automatic analysis of electron backscattered diffraction patterns (EBSD analysis). The generally accepted idea that grain boundary sliding is dominant during superplastic flow suggests the preservation of an equiaxed fine-grained structure with predominantly high-angle grain boundary misorientation in the material. The present study revealed that heating prior to the onset of deformation leads to some grain growth due to static recrystallization, and superplastic deformation is accompanied by dynamic grain growth and continuous dynamic recrystallization. Continuous recrystallization has a more significant effect on microstructural changes. This mechanism involves the transverse division of pre-elongated grains into subgrains that ultimately transform into chains of nearly equiaxed small grains, resulting in a bimodal grain structure. The data obtained, including significant strain hardening, noticeable grain elongation, the formation of a well-defined dislocation structure and subboundaries within grains, as well as the development of a pronounced crystallographic texture, provide convincing evidence of the occurrence of intragranular slip during superplastic flow throughout the entire volume of the material...

CORE (COnnecting REpositories)