Study on the Effects of the Composite Addition of Al–5Ti–0.8C and La on the Microstructure and High-Temperature Mechanical Properties of ZL205A Alloy

The effects of Al–5Ti–0.8C and the rare-earth element La on the microstructure and high-temperature mechanical properties of ZL205A alloy were investigated. We found that the grains of 0.1%La + 0.3%Al–5Ti–0.8C alloy were fine, the morphology of the as-cast Al(2)Cu phase was fragmented, and the preci...

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Autores principales: Li, Yu, Zhang, Guowei, Niu, Jingwei, Xu, Hong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9607394/
https://www.ncbi.nlm.nih.gov/pubmed/36295165
http://dx.doi.org/10.3390/ma15207087
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author Li, Yu
Zhang, Guowei
Niu, Jingwei
Xu, Hong
author_facet Li, Yu
Zhang, Guowei
Niu, Jingwei
Xu, Hong
author_sort Li, Yu
collection PubMed
description The effects of Al–5Ti–0.8C and the rare-earth element La on the microstructure and high-temperature mechanical properties of ZL205A alloy were investigated. We found that the grains of 0.1%La + 0.3%Al–5Ti–0.8C alloy were fine, the morphology of the as-cast Al(2)Cu phase was fragmented, and the precipitated phase was fine after T5 treatment. In particular, the high-temperature mechanical properties of 0.1%La + 0.3%Al–5Ti–0.8C alloy were significantly improved above 250 °C. The reason for the increase in high-temperature plasticity was attributed to the Al–La phase and the TiC particles, which refined the grains and reduced the tendency for intergranular fracture at high temperatures. More importantly, the high-temperature strengthening mechanism of the Al–5Ti–0.8C master alloy compounded with La was a result of the TiC introduced by the Al–5Ti–0.8C alloy, and the Al(11)La(3) formed by the addition of La refined the grains in the matrix, promoted the precipitation of the needle-like θ’(Al(2)Cu) phase, reduced the size of the θ’(Al(2)Cu) phase, decreased the PFZ (Precipitation Free Zone), and increased the θ’(Al(2)Cu) phase number, hindering dislocation and grain boundary motion.
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spelling pubmed-96073942022-10-28 Study on the Effects of the Composite Addition of Al–5Ti–0.8C and La on the Microstructure and High-Temperature Mechanical Properties of ZL205A Alloy Li, Yu Zhang, Guowei Niu, Jingwei Xu, Hong Materials (Basel) Article The effects of Al–5Ti–0.8C and the rare-earth element La on the microstructure and high-temperature mechanical properties of ZL205A alloy were investigated. We found that the grains of 0.1%La + 0.3%Al–5Ti–0.8C alloy were fine, the morphology of the as-cast Al(2)Cu phase was fragmented, and the precipitated phase was fine after T5 treatment. In particular, the high-temperature mechanical properties of 0.1%La + 0.3%Al–5Ti–0.8C alloy were significantly improved above 250 °C. The reason for the increase in high-temperature plasticity was attributed to the Al–La phase and the TiC particles, which refined the grains and reduced the tendency for intergranular fracture at high temperatures. More importantly, the high-temperature strengthening mechanism of the Al–5Ti–0.8C master alloy compounded with La was a result of the TiC introduced by the Al–5Ti–0.8C alloy, and the Al(11)La(3) formed by the addition of La refined the grains in the matrix, promoted the precipitation of the needle-like θ’(Al(2)Cu) phase, reduced the size of the θ’(Al(2)Cu) phase, decreased the PFZ (Precipitation Free Zone), and increased the θ’(Al(2)Cu) phase number, hindering dislocation and grain boundary motion. MDPI 2022-10-12 /pmc/articles/PMC9607394/ /pubmed/36295165 http://dx.doi.org/10.3390/ma15207087 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Li, Yu
Zhang, Guowei
Niu, Jingwei
Xu, Hong
Study on the Effects of the Composite Addition of Al–5Ti–0.8C and La on the Microstructure and High-Temperature Mechanical Properties of ZL205A Alloy
title Study on the Effects of the Composite Addition of Al–5Ti–0.8C and La on the Microstructure and High-Temperature Mechanical Properties of ZL205A Alloy
title_full Study on the Effects of the Composite Addition of Al–5Ti–0.8C and La on the Microstructure and High-Temperature Mechanical Properties of ZL205A Alloy
title_fullStr Study on the Effects of the Composite Addition of Al–5Ti–0.8C and La on the Microstructure and High-Temperature Mechanical Properties of ZL205A Alloy
title_full_unstemmed Study on the Effects of the Composite Addition of Al–5Ti–0.8C and La on the Microstructure and High-Temperature Mechanical Properties of ZL205A Alloy
title_short Study on the Effects of the Composite Addition of Al–5Ti–0.8C and La on the Microstructure and High-Temperature Mechanical Properties of ZL205A Alloy
title_sort study on the effects of the composite addition of al–5ti–0.8c and la on the microstructure and high-temperature mechanical properties of zl205a alloy
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9607394/
https://www.ncbi.nlm.nih.gov/pubmed/36295165
http://dx.doi.org/10.3390/ma15207087
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