A unified description of solid solution creep strengthening in Al–Mg alloys
Author:
Funder
MCINN
Publisher
Elsevier BV
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference27 articles.
1. Influence of grain size, solute atoms and second-phase particles on creep behavior of polycrystalline solids
2. Two mechanisms of dislocation motion during creep
3. Experimental study on the stress range of class I behaviour in the creep of AlMg alloys
4. Effects of stress amplitude and internal stress on the grain boundary deformation behavior under high temperature creep in an Al-2.9%Mg alloy
5. Dislocation structure in the high temperature creep of metals and solid solution alloys: a review
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1. Microstructural evolution and multi-mechanism strengthening model of nanocrystalline Al-Mg alloys;Journal of Alloys and Compounds;2024-05
2. Towards a comprehensive understanding of creep: Microstructural dependence of the pre-exponential term in Al;Materials Science and Engineering: A;2020-03
3. Analysis of the Combined Strengthening Effect of Solute Atoms and Precipitates on Creep of Aluminum Alloys;Advanced Engineering Materials;2020-02-18
4. Creep behavior of heat resistant Al–Cu–Mn alloys strengthened by fine (θ′) and coarse (Al20Cu2Mn3) second phase particles;Materials Science and Engineering: A;2019-08
5. Effects of large amounts of Mg (5–13 wt%) on hot compressive deformation behavior and processing maps of Al-Mg alloys;Journal of Alloys and Compounds;2019-06
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