Effect of Er content on mechanical properties and microstructural evolution of highly-alloyed Mg-10Gd-5Y alloy

[Display omitted] •Tensile strength of highly-alloyed Mg-10Gd-5Y alloy is demonstrated to monotonously increase with Er content.•Solid solution strengthening and grain refinement are shown to dominate the increase of tensile yield strength upon Er content.•The significant reduced grain size with inc...

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Published inMaterials & design Vol. 245; p. 113299
Main Authors Zheng, Zhiying, Dong, Zhihua, Jiang, Bin, Cheng, Yunchuan, Bai, Shengwen, Zhang, Ang, Pan, Fusheng
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.09.2024
Elsevier
Subjects
Alloying element segregation
Highly-alloyed Mg-RE alloys
Mechanical properties
Multi-size precipitates
Mechanical properties
Highly-alloyed Mg-RE alloys
Multi-size precipitates
Alloying element segregation
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Abstract [Display omitted] •Tensile strength of highly-alloyed Mg-10Gd-5Y alloy is demonstrated to monotonously increase with Er content.•Solid solution strengthening and grain refinement are shown to dominate the increase of tensile yield strength upon Er content.•The significant reduced grain size with increasing Er content is correlated with both the promoted dynamic recrystallization and the retardant grain growth. The influence of Er content on mechanical properties and microstructural evolution of highly-alloyed Mg-10Gd-5Y-xEr alloys (x = 0, 2, 3.5, 5, and 6.5 wt%) are investigated. The tensile strength is found to increase monotonously with increasing Er content, while the ductility is slightly reduced due to the increased formation of block precipitates. The maximum tensile yield strength and ultimate tensile strength are achieved to be 296 MPa and 374 MPa, respectively, within the studied concertation interval. Solid solution strengthening and grain refinement are demonstrated to dominate the increase of tensile yield strength upon Er content, where the latter becomes the primary strengthening mechanism at relatively high Er contents (> 5 wt%). It is closely related to the consumption of Gd and Y in solid solution by the precipitation of Mg24RE5 particles and alloying element segregation at grain boundary. The significant reduced grain size of dynamic recrystallized grains upon Er content is attributed to the promoted dynamic recrystallization via particle stimulation nucleation and the retardant grain growth emerging from the drag and pinning effect of alloying element segregation and nano-precipitates at grain boundary.
AbstractList [Display omitted] •Tensile strength of highly-alloyed Mg-10Gd-5Y alloy is demonstrated to monotonously increase with Er content.•Solid solution strengthening and grain refinement are shown to dominate the increase of tensile yield strength upon Er content.•The significant reduced grain size with increasing Er content is correlated with both the promoted dynamic recrystallization and the retardant grain growth. The influence of Er content on mechanical properties and microstructural evolution of highly-alloyed Mg-10Gd-5Y-xEr alloys (x = 0, 2, 3.5, 5, and 6.5 wt%) are investigated. The tensile strength is found to increase monotonously with increasing Er content, while the ductility is slightly reduced due to the increased formation of block precipitates. The maximum tensile yield strength and ultimate tensile strength are achieved to be 296 MPa and 374 MPa, respectively, within the studied concertation interval. Solid solution strengthening and grain refinement are demonstrated to dominate the increase of tensile yield strength upon Er content, where the latter becomes the primary strengthening mechanism at relatively high Er contents (> 5 wt%). It is closely related to the consumption of Gd and Y in solid solution by the precipitation of Mg24RE5 particles and alloying element segregation at grain boundary. The significant reduced grain size of dynamic recrystallized grains upon Er content is attributed to the promoted dynamic recrystallization via particle stimulation nucleation and the retardant grain growth emerging from the drag and pinning effect of alloying element segregation and nano-precipitates at grain boundary.
The influence of Er content on mechanical properties and microstructural evolution of highly-alloyed Mg-10Gd-5Y-xEr alloys (x = 0, 2, 3.5, 5, and 6.5 wt%) are investigated. The tensile strength is found to increase monotonously with increasing Er content, while the ductility is slightly reduced due to the increased formation of block precipitates. The maximum tensile yield strength and ultimate tensile strength are achieved to be 296 MPa and 374 MPa, respectively, within the studied concertation interval. Solid solution strengthening and grain refinement are demonstrated to dominate the increase of tensile yield strength upon Er content, where the latter becomes the primary strengthening mechanism at relatively high Er contents (> 5 wt%). It is closely related to the consumption of Gd and Y in solid solution by the precipitation of Mg24RE5 particles and alloying element segregation at grain boundary. The significant reduced grain size of dynamic recrystallized grains upon Er content is attributed to the promoted dynamic recrystallization via particle stimulation nucleation and the retardant grain growth emerging from the drag and pinning effect of alloying element segregation and nano-precipitates at grain boundary.
ArticleNumber 113299
Author Cheng, Yunchuan
Jiang, Bin
Bai, Shengwen
Zhang, Ang
Pan, Fusheng
Dong, Zhihua
Zheng, Zhiying
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Keywords Mechanical properties
Highly-alloyed Mg-RE alloys
Multi-size precipitates
Alloying element segregation
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Snippet [Display omitted] •Tensile strength of highly-alloyed Mg-10Gd-5Y alloy is demonstrated to monotonously increase with Er content.•Solid solution strengthening...
The influence of Er content on mechanical properties and microstructural evolution of highly-alloyed Mg-10Gd-5Y-xEr alloys (x = 0, 2, 3.5, 5, and 6.5 wt%) are...
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SubjectTerms Alloying element segregation
Highly-alloyed Mg-RE alloys
Mechanical properties
Multi-size precipitates
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Title Effect of Er content on mechanical properties and microstructural evolution of highly-alloyed Mg-10Gd-5Y alloy
URI https://dx.doi.org/10.1016/j.matdes.2024.113299
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