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Orozco-Caballero, AAuthor

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February 13, 2024
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Article

Influence of Solid Solutions on the Al2024 High-Temperature Deformation Behavior

Publicated to: MATERIALS. 16 (18): 6251- - 2023-09-01 16(18), DOI: 10.3390/ma16186251

Authors:

Ruano, OA; Orozco-Caballero, A; Alvarez-Leal, M; Carreño, F
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Affiliations

CENIM CSIC, Phys Met Dept, Av Gregorio Amo 8, Madrid 28040, Spain - Author
Technol Ctr Met Mech & Transport CETEMET, Dept R&D & Programmes, Av 1 Mayo S-N, Linares 23700, Spain - Author
Univ Politecn Madrid, Dept Mech Engn Chem & Ind Design, Ronda de Valencia 3, Madrid 28012, Spain - Author
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Abstract

The mechanical properties of 2024 aluminum alloy were studied after two different tempers. The T351 temper (solution heat treatment, stress relief, and natural aging) leads to high hardness and toughness. A thermal treatment consisting of heat-treating at 280 & DEG;C for 48 h and slow cooling in a furnace, named TT temper, was performed to increase the precipitate size and their separation while minimizing the amount of solutes in solid solution, which produced the minimum hardness for an overaged Al2024 alloy and a lower tensile flow stress than for the T351 temper. The flow stress strongly decreases and the elongation to failure strongly increases for both materials above 300 & DEG;C. Differences in strain rate at a given stress in the power law regime at all temperatures for both tempers and compared with pure aluminum are attributed to the influence of solutes in solid solutions, affecting both the glide and climb of dislocations. However, the stacking fault energy, SFE, alone does not account for the hot deformation behavior. Thus, it is the synergistic effect of various solutes that affects the entire deformation process, causing a decrease of three or four orders of magnitude in strain rate for a given stress with respect to the pure aluminum matrix values.
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Keywords

2024 aluminium alloys2024 aluminum alloyAl-cu-mgAluminum alloysClimbCreep-behaviorDependenceDislocationsDuctilityFault energyHardnessHeat treatmentHigh temperature deformation behaviorHot deformation behaviorHot deformation behaviorsLatticeMechanical propertiesMechanical-behaviorPlastic flowPrecipitationPrecipitation (chemical)Pure aluminiumPure aluminumSolid solutionSolid solutionsSoluteSolutesSolution heat treatmentStacking fault energyStacking faultsStacking-fault energyStrain rateStrain-ratesStress relief

Quality index

Bibliometric impact. Analysis of the contribution and dissemination channel

The work has been published in the journal MATERIALS due to its progression and the good impact it has achieved in recent years, according to the agency WoS (JCR), it has become a reference in its field. In the year of publication of the work, 2023, it was in position 20/90, thus managing to position itself as a Q1 (Primer Cuartil), in the category Metallurgy & Metallurgical Engineering.

Independientemente del impacto esperado determinado por el canal de difusión, es importante destacar el impacto real observado de la propia aportación.

Según las diferentes agencias de indexación, el número de citas acumuladas por esta publicación hasta la fecha 2026-04-27:

  • WoS: 3
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Impact and social visibility

It is essential to present evidence supporting full alignment with institutional principles and guidelines on Open Science and the Conservation and Dissemination of Intellectual Heritage. A clear example of this is:

  • The work has been submitted to a journal whose editorial policy allows open Open Access publication.
  • Assignment of a Handle/URN as an identifier within the deposit in the Institutional Repository: https://oa.upm.es/85137/

As a result of the publication of the work in the institutional repository, statistical usage data has been obtained that reflects its impact. In terms of dissemination, we can state that, as of

  • Views: 126
  • Downloads: 21
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Awards linked to the item

& nbsp;Financial support from MINECO (Spain), Project MAT2015-68919-C3-1-R (MINECO/FEDER), is gratefully acknowledged. Funding from the project PID2020-118626RB-I00 awarded by MCIN/AEI/10.13039/501100011033 is also acknowledged. A. O-C. also thanks CENIM-CSIC for a contract funded by the MAT2015-68919-C3-1-R project and O.A.R. for a Professor ad honorem position. M. A-L. thanks MINECO for an FPI fellowship, number BES2013-063963 (MINECO/FEDER/ESF).
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