Nano characterization to resolve precipitate free zone formation of an Al alloy

Name: Nano characterization to resolve precipitate free zone formation of an Al alloy
Creator: German Aerospace Center, Institute for Materials Physics in Space, Linder Höhe, 51147, Cologne, GERMANY; German Aerospace Center, Institute for Metals and Hybrid Materials, Linder Hoehe, 51170 Cologne, Germany; University of British Columbia, Stewart Blusson Quantum Matter Institute, 2355 East Mall, V6T 1Z4, Vancouver, CANADA; Dept of Metals & Materials Engineering, 309-6350 Stores Rd British Columbia, V6T 1Z4, Vancouver, CANADA
Published: 2028-01-01 00:00:00
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ESRF Portal2028-01-01 更新2026-04-23 收录

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https://doi.esrf.fr/10.15151/ESRF-ES-2170605100

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资源简介：

Precipitation-hardenable aluminum alloys in extruded structures can lose ductility due to 'precipitate free zones' (PFZs) along grain boundaries, formed by slow cooling and aging. These nanoscale PFZs, typically tens of nanometers, vary with processing conditions. Current (S)TEM imaging methods face statistical and 2D sectioning challenges, affecting measurement accuracy. To address this, a multi-modal approach combines scanning electron microscopy, plasma focused ion beam (pFIB) for 3D imaging, and synchrotron fluorescence imaging for high-resolution spatial and chemical data. This facilitates quantitative comparisons with simulations to optimize alloy properties for safety applications.

提供机构：

German Aerospace Center, Institute for Materials Physics in Space, Linder Höhe, 51147, Cologne, GERMANY; German Aerospace Center, Institute for Metals and Hybrid Materials, Linder Hoehe, 51170 Cologne, Germany; University of British Columbia, Stewart Blusson Quantum Matter Institute, 2355 East Mall, V6T 1Z4, Vancouver, CANADA; Dept of Metals & Materials Engineering, 309-6350 Stores Rd British Columbia, V6T 1Z4, Vancouver, CANADA

创建时间：

2028-01-01