Improvement of Surface Properties of Aluminum Alloy-Based Composites by Multi-Layer DLC Coating

Fuyama, Nobuyuki; Okada, Koki; Nagaoka, Takashi; Nishimoto, Akio

doi:10.2320/matertrans.mt-l2022011

Mater. Trans.

2022

DOI: 10.2320/matertrans.mt-l2022011

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Improvement of Surface Properties of Aluminum Alloy-Based Composites by Multi-Layer DLC Coating

Nobuyuki Fuyama¹,

Koki Okada

Takashi Nagaoka³

et al.

Abstract: In recent years, it has been a challenge for the transportation sector to reduce the weight of vehicles for higher fuel efficiency. This expands the use of light metals such as Al alloys. However, these materials have low hardness and surface strength. In this study, Al-alloy (AC8A; AlSi CuNiMg) composites reinforced with Al 2 O 3 fibers were used as base materials and were coated with multilayer diamond-like carbon (DLC) films to improve their properties. The multilayer DLC films were deposited on the Al allo… Show more

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Cited by 3 publications

References 39 publications

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Mechanical Characterization of B4C-Gr Reinforced Al–Zn–Mg Alloy Hybrid Nanocomposites

Kumar¹,

Kandavel²

2023

Mater. Trans.

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The current study is an attempt made to synthesize nano B4C/Graphite reinforced AluminumZincMagnesium alloy composites by altering the weight %age of B4C (2%, 4%, and 6%). SEM was used to examine the morphology and mechanical behaviour was done in accordance with ASTM standards (ASTM E8, E9, E23, and D790). The microstructure displays a nearly uniform dispersion of reinforcement particles in the matrix alloy, with no residual pore visible. From the XRD analysis it is identified that interfacial phases between the base material and ceramic strengthening particulates are identified as Al 3 BC, AlB 12 , Mg 2 Si, SiAl 2 and it strive as strengthening mechanism of synthetic composites. The interfacial phases identified as Al 3 BC, AlB 12 , Mg 2 Si, and SiAl 2 , and serve as a strengthening mechanism for synthetic composites, according to XRD. When compared to the base material, intermixtures had higher hardness (28.07%), ultimate tensile strength (69.31%), compressive strength (18.58%). The flexural strength is improved (29.32%) due to higher dislocation density in the matrix and wider variations in the elastic modulus. The impact strength improved significantly (72%) due to a reduction in porosity and grain refinement.

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Mechanical Characterization of B4C-Gr Reinforced Al–Zn–Mg Alloy Hybrid Nanocomposites

Kumar¹,

Kandavel²

2023

Mater. Trans.

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Experimental Investigation of NanoB<sub>4</sub>C-NanoGr Reinforced AA7075 Alloy Hybrid Nanocomposites

Kumar,

Kandavel

2024

Mater. Trans.

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Best Papers Awarded in 2023 in <i>Materials Transactions</i>

Horita

2024

Mater. Trans.

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Improvement of Surface Properties of Aluminum Alloy-Based Composites by Multi-Layer DLC Coating

Cited by 3 publications

References 39 publications

Mechanical Characterization of B4C-Gr Reinforced Al–Zn–Mg Alloy Hybrid Nanocomposites

Mechanical Characterization of B4C-Gr Reinforced Al–Zn–Mg Alloy Hybrid Nanocomposites

Experimental Investigation of NanoB<sub>4</sub>C-NanoGr Reinforced AA7075 Alloy Hybrid Nanocomposites

Best Papers Awarded in 2023 in <i>Materials Transactions</i>

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