Regulation on microstructure and thermo-physical properties of hypereutectic Al–10Ni alloy by Controlled Diffusion Solidification and Sm modification

The Al-10 wt% Ni alloy was prepared by Controlled Diffusion Solidification (CDS) technology with samarium (Sm) modification. This study systematically investigated the effects of CDS on microstructure evolution and thermo-physical properties, while elucidating the underlying mechanisms of CDS and mo...

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Published inJournal of materials research and technology Vol. 38; pp. 1058 - 1069
Main Authors Mo, Liling, Chen, Linbo, Zhou, Yueming, Fu, Nianqing, Zhan, Meiyan, Du, Jun
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.09.2025
Elsevier
Subjects
Controlled diffusion solidification
Hypereutectic
Modification
Primary phase
Controlled diffusion solidification
Modification
Primary phase
Hypereutectic
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Abstract The Al-10 wt% Ni alloy was prepared by Controlled Diffusion Solidification (CDS) technology with samarium (Sm) modification. This study systematically investigated the effects of CDS on microstructure evolution and thermo-physical properties, while elucidating the underlying mechanisms of CDS and modification. Experiments demonstrated that CDS effectively refines the primary Al3Ni phase through the generation of abundant nucleation sites, achieved via subnormal cooling coupled with intensive melt agitation. CDS alone achieved an 80.2 % size reduction in primary Al3Ni phase and changed the shape factor from 10.7 to 3.2, thereby enhancing ultimate tensile strength and thermal conductivity. The introduction of samarium (Sm) modifier into the melt prior to CDS demonstrated superior efficacy. This hybrid approach synergistically enhanced both mechanical and thermal properties, yielding an ultimate tensile strength increase from 158.8 to 173.3 MPa, an elongation improvement from 8.9 % to 19.0 %, and a 12.2 % elevation in thermal conductivity from 193.0 to 216.5 W/(m·K). The CDS processed alloy exhibits homogeneous microstructure and optimized thermo-physical properties render it ideal for advanced thermal management systems.
AbstractList The Al-10 wt% Ni alloy was prepared by Controlled Diffusion Solidification (CDS) technology with samarium (Sm) modification. This study systematically investigated the effects of CDS on microstructure evolution and thermo-physical properties, while elucidating the underlying mechanisms of CDS and modification. Experiments demonstrated that CDS effectively refines the primary Al3Ni phase through the generation of abundant nucleation sites, achieved via subnormal cooling coupled with intensive melt agitation. CDS alone achieved an 80.2 % size reduction in primary Al3Ni phase and changed the shape factor from 10.7 to 3.2, thereby enhancing ultimate tensile strength and thermal conductivity. The introduction of samarium (Sm) modifier into the melt prior to CDS demonstrated superior efficacy. This hybrid approach synergistically enhanced both mechanical and thermal properties, yielding an ultimate tensile strength increase from 158.8 to 173.3 MPa, an elongation improvement from 8.9 % to 19.0 %, and a 12.2 % elevation in thermal conductivity from 193.0 to 216.5 W/(m·K). The CDS processed alloy exhibits homogeneous microstructure and optimized thermo-physical properties render it ideal for advanced thermal management systems.
Author Mo, Liling
Chen, Linbo
Zhou, Yueming
Du, Jun
Fu, Nianqing
Zhan, Meiyan
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Keywords Controlled diffusion solidification
Modification
Primary phase
Hypereutectic
Language English
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Snippet The Al-10 wt% Ni alloy was prepared by Controlled Diffusion Solidification (CDS) technology with samarium (Sm) modification. This study systematically...
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SubjectTerms Controlled diffusion solidification
Hypereutectic
Modification
Primary phase
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Title Regulation on microstructure and thermo-physical properties of hypereutectic Al–10Ni alloy by Controlled Diffusion Solidification and Sm modification
URI https://dx.doi.org/10.1016/j.jmrt.2025.07.276
https://doaj.org/article/f3b0d504197247bb8a361d8f154ca19a
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