>Aluminum nitride layers on aluminum are formed by the barrel nitriding in nitrogen gas, and duplex coatings are performed with the plasma nitriding in nitrogen and argon '/> Mechanical Properties of Aluminum Nitride Layer Formed by Duplex Coating of Barrel Nitriding and Plasma Nitriding
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首页> 外文期刊>Plasma processes and polymers >Mechanical Properties of Aluminum Nitride Layer Formed by Duplex Coating of Barrel Nitriding and Plasma Nitriding
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Mechanical Properties of Aluminum Nitride Layer Formed by Duplex Coating of Barrel Nitriding and Plasma Nitriding

机译:桶渗氮和等离子体渗氮双重涂层形成的氮化铝层的力学性能。

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摘要

>Abstract class="para">>Aluminum nitride layers on aluminum are formed by the barrel nitriding in nitrogen gas, and duplex coatings are performed with the plasma nitriding in nitrogen and argon gas after the barrel nitriding. Aluminum nitride films with high thickness, high surface hardness, and good adhesion can be obtained on aluminum surfaces by using the above process. Hardness and Young's modulus of the AlN formed by the barrel nitriding is estimated by means of the rules of mixture. The microstructure of the AlN is proved to be composed of Al and AlN. It is suggested that the AlN formed by the barrel nitriding can play a role as the adhesion improvement of the AlN formed by the plasma nitriding. Furthermore, a microindentation test, which can obtain indentation load–penetration displacement curves, is performed in order to investigate the film fracture of the AlN.
机译:>摘要 class =“ para”> >铝在铝上的氮化铝层是通过在氮气中进行桶式氮化形成的,然后在氮气和氩气中通过等离子氮化进行双涂层。桶渗氮。通过使用上述方法,可以在铝表面上获得具有高厚度,高表面硬度和良好粘附性的氮化铝膜。桶式氮化形成的AlN的硬度和杨氏模量是根据混合规则估算的。事实证明,AlN的微观结构由Al和AlN组成。建议通过桶状氮化形成的AlN可以起到改善等离子体氮化形成的AlN的附着力的作用。此外,为了研究AlN的膜断裂,进行了微压痕试验,可以获得压痕载荷-穿透位移曲线。

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  • 来源
    《Plasma processes and polymers》 |2009年第1期|310-313|共4页
  • 作者

    Masashi Yoshida; Masahiro Okumiya; Ryuta Ichiki; Waleed Khalifa; Cagri Tekmen; Yoshiki Tsunekawa; Tamio Hara; Kazushi Tanaka;

  • 作者单位

    Toyota Technological Institute 2-12-1 Hisakata Tempaku-ku Nagoya 468-8511 Japan Present address;

    Hiroshima Kokusai Gakuin University 6-20-1 Nakano Aki-ku Hiroshima 739-0321 Japan;

    Toyota Technological Institute 2-12-1 Hisakata Tempaku-ku Nagoya 468-8511 Japan;

    Toyota Technological Institute 2-12-1 Hisakata Tempaku-ku Nagoya 468-8511 Japan;

    Toyota Technological Institute 2-12-1 Hisakata Tempaku-ku Nagoya 468-8511 Japan;

    Toyota Technological Institute 2-12-1 Hisakata Tempaku-ku Nagoya 468-8511 Japan;

    Toyota Technological Institute 2-12-1 Hisakata Tempaku-ku Nagoya 468-8511 Japan;

    Toyota Technological Institute 2-12-1 Hisakata Tempaku-ku Nagoya 468-8511 Japan;

    CHUBU Electric Power Co. Energy Applications RD Center 20-1 Kitasekiyama Ohdaka-cho Midori-ku Nagoya 459-8522 Japan;

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  • 关键词

    adhesion; aluminum; hardness; stress;

    机译:附着力;铝;硬度;应力;

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