Effect of Nickel Addition on Precipitate Microstructures and Strength at an Elevated Temperature in Wrought Al-Si-Cu-Mg Alloys

Naoya Sugatani; Masayoshi Dohi; Taiki Tsuchiya; Seungwon Lee; Kenji Matsuda

doi:10.2320/matertrans.MT-M2024150

Effect of Nickel Addition on Precipitate Microstructures and Strength at an Elevated Temperature in Wrought Al-Si-Cu-Mg Alloys

Naoya Sugatani, Masayoshi Dohi, Taiki Tsuchiya, Seungwon Lee, Kenji Matsuda^*

^*Corresponding author for this work

Materials Design and Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Al-Si-Cu-Mg-(Ni) alloys are used for engine pistons or compressor scrolls due to their excellent heat and wear resistance. Although these components are typically produced using mold-casting or die-casting techniques, forging techniques have recently attracted attention because they allow for a lightweight design. However, wrought Al-Si-Cu-Mg-(Ni) alloys have rarely been investigated, and the effect of nickel on precipitate microstructures and strength remains unclear. Here, we investigated the precipitate microstructure and strength at 473 K of wrought Al-Si-Cu-Mg alloys with different nickel concentrations. The 0.2% proof stress and tensile strength decreased with increasing nickel concentration. The TEM observations showed that the decline was attributed to the decrease in the θA phase. The increase in the Al₇Cu₄Ni and Al-Fe-Cu-Si-Ni phases suggested that the nickel decreased the θA phase by consuming the copper in the matrix. In addition, the HRTEM observation revealed the difference in the orientation relationships of the Q phase between with and without nickel alloys. The Q phase observed in the 2%Ni alloy had a smaller lattice misfit with the matrix than that observed in the 0%Ni alloy, indicating excellent thermal stability.

Original language	English
Pages (from-to)	302-309
Number of pages	8
Journal	Materials Transactions
Volume	66
Issue number	3
DOIs	https://doi.org/10.2320/matertrans.MT-M2024150
State	Published - 2025/03

Keywords

Al-Si alloy
elevated temperature
misfit
nickel addition
orientation relationship
precipitate
Q phase
strength

ASJC Scopus subject areas

General Materials Science
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.2320/matertrans.MT-M2024150

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title = "Effect of Nickel Addition on Precipitate Microstructures and Strength at an Elevated Temperature in Wrought Al-Si-Cu-Mg Alloys",

abstract = "Al-Si-Cu-Mg-(Ni) alloys are used for engine pistons or compressor scrolls due to their excellent heat and wear resistance. Although these components are typically produced using mold-casting or die-casting techniques, forging techniques have recently attracted attention because they allow for a lightweight design. However, wrought Al-Si-Cu-Mg-(Ni) alloys have rarely been investigated, and the effect of nickel on precipitate microstructures and strength remains unclear. Here, we investigated the precipitate microstructure and strength at 473 K of wrought Al-Si-Cu-Mg alloys with different nickel concentrations. The 0.2% proof stress and tensile strength decreased with increasing nickel concentration. The TEM observations showed that the decline was attributed to the decrease in the θA phase. The increase in the Al7Cu4Ni and Al-Fe-Cu-Si-Ni phases suggested that the nickel decreased the θA phase by consuming the copper in the matrix. In addition, the HRTEM observation revealed the difference in the orientation relationships of the Q phase between with and without nickel alloys. The Q phase observed in the 2%Ni alloy had a smaller lattice misfit with the matrix than that observed in the 0%Ni alloy, indicating excellent thermal stability.",

keywords = "Al-Si alloy, elevated temperature, misfit, nickel addition, orientation relationship, precipitate, Q phase, strength",

author = "Naoya Sugatani and Masayoshi Dohi and Taiki Tsuchiya and Seungwon Lee and Kenji Matsuda",

note = "Publisher Copyright: {\textcopyright}2025 The Japan Institute of Metals and Materials.",

year = "2025",

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doi = "10.2320/matertrans.MT-M2024150",

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T1 - Effect of Nickel Addition on Precipitate Microstructures and Strength at an Elevated Temperature in Wrought Al-Si-Cu-Mg Alloys

AU - Sugatani, Naoya

AU - Dohi, Masayoshi

AU - Tsuchiya, Taiki

AU - Lee, Seungwon

AU - Matsuda, Kenji

PY - 2025/3

Y1 - 2025/3

N2 - Al-Si-Cu-Mg-(Ni) alloys are used for engine pistons or compressor scrolls due to their excellent heat and wear resistance. Although these components are typically produced using mold-casting or die-casting techniques, forging techniques have recently attracted attention because they allow for a lightweight design. However, wrought Al-Si-Cu-Mg-(Ni) alloys have rarely been investigated, and the effect of nickel on precipitate microstructures and strength remains unclear. Here, we investigated the precipitate microstructure and strength at 473 K of wrought Al-Si-Cu-Mg alloys with different nickel concentrations. The 0.2% proof stress and tensile strength decreased with increasing nickel concentration. The TEM observations showed that the decline was attributed to the decrease in the θA phase. The increase in the Al7Cu4Ni and Al-Fe-Cu-Si-Ni phases suggested that the nickel decreased the θA phase by consuming the copper in the matrix. In addition, the HRTEM observation revealed the difference in the orientation relationships of the Q phase between with and without nickel alloys. The Q phase observed in the 2%Ni alloy had a smaller lattice misfit with the matrix than that observed in the 0%Ni alloy, indicating excellent thermal stability.

AB - Al-Si-Cu-Mg-(Ni) alloys are used for engine pistons or compressor scrolls due to their excellent heat and wear resistance. Although these components are typically produced using mold-casting or die-casting techniques, forging techniques have recently attracted attention because they allow for a lightweight design. However, wrought Al-Si-Cu-Mg-(Ni) alloys have rarely been investigated, and the effect of nickel on precipitate microstructures and strength remains unclear. Here, we investigated the precipitate microstructure and strength at 473 K of wrought Al-Si-Cu-Mg alloys with different nickel concentrations. The 0.2% proof stress and tensile strength decreased with increasing nickel concentration. The TEM observations showed that the decline was attributed to the decrease in the θA phase. The increase in the Al7Cu4Ni and Al-Fe-Cu-Si-Ni phases suggested that the nickel decreased the θA phase by consuming the copper in the matrix. In addition, the HRTEM observation revealed the difference in the orientation relationships of the Q phase between with and without nickel alloys. The Q phase observed in the 2%Ni alloy had a smaller lattice misfit with the matrix than that observed in the 0%Ni alloy, indicating excellent thermal stability.

KW - Al-Si alloy

KW - elevated temperature

KW - misfit

KW - nickel addition

KW - orientation relationship

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KW - strength

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Effect of Nickel Addition on Precipitate Microstructures and Strength at an Elevated Temperature in Wrought Al-Si-Cu-Mg Alloys

Abstract

Keywords

ASJC Scopus subject areas

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