The wear characteristics of a wire tool in the microgrooving of ceramics

Satoshi Sakamoto, Keitoku Hayashi, Masaya Gemma, Yasuo Kondo, Kenji Yamaguchi, Mitsugu Yamaguchi, Tsuyoshi Fujita

    抄録

    A wire tool having electrodeposited diamond grains is frequently used for machining hard and brittle materials such as silicon ingots, magnetic materials, ceramics, and sapphires. This study aims to examine the wear characteristics of the tool during the microgrooving of ceramics. We conducted microgrooving experiments for alumina ceramics. The results indicate that the grooving time and the machining distance influence the groove depth. However, as the damage in a wire tool progresses, the groove depth does not depend on the machining distance. A fast relative velocity leads to serious damage in the wire tool even when the machining time is short. In the case of wet grooving, the damage to the wire tool was smaller than that in the case of dry grooving.

    本文言語英語
    代表出版物のタイトルAdvanced Materials Research and Technologies
    出版者Trans Tech Publications Ltd
    ページ132-136
    ページ数5
    719
    ISBN(印刷物)9783035710052
    DOI
    ジャーナル掲載日出版済み - 2017
    イベントInternational Conference on Advanced Materials Research and Manufacturing Technologies, AMRMT 2016 - Singapore, シンガポール

    出版物シリーズ

    名前Key Engineering Materials
    719
    ISSN(印刷物)10139826

    その他

    その他International Conference on Advanced Materials Research and Manufacturing Technologies, AMRMT 2016
    シンガポール
    Singapore
    期間16/8/1816/8/20

    Fingerprint

    Wire
    Machining
    Magnetic materials
    Brittleness
    Ingots
    Sapphire
    Diamonds
    Alumina
    Silicon
    Experiments

    Keywords

      ASJC Scopus subject areas

      • Materials Science(all)
      • Mechanics of Materials
      • Mechanical Engineering

      これを引用

      Sakamoto, S., Hayashi, K., Gemma, M., Kondo, Y., Yamaguchi, K., Yamaguchi, M., & Fujita, T. (2017). The wear characteristics of a wire tool in the microgrooving of ceramics. : Advanced Materials Research and Technologies. (巻 719, pp. 132-136). (Key Engineering Materials; 巻数 719). Trans Tech Publications Ltd. DOI: 10.4028/www.scientific.net/KEM.719.132

      The wear characteristics of a wire tool in the microgrooving of ceramics. / Sakamoto, Satoshi; Hayashi, Keitoku; Gemma, Masaya; Kondo, Yasuo; Yamaguchi, Kenji; Yamaguchi, Mitsugu; Fujita, Tsuyoshi.

      Advanced Materials Research and Technologies. 巻 719 Trans Tech Publications Ltd, 2017. p. 132-136 (Key Engineering Materials; 巻数 719).

      研究成果: 著書の章/レポート/会議のプロシーディングス会議での発言

      Sakamoto, S, Hayashi, K, Gemma, M, Kondo, Y, Yamaguchi, K, Yamaguchi, M & Fujita, T 2017, The wear characteristics of a wire tool in the microgrooving of ceramics. : Advanced Materials Research and Technologies. 巻. 719, Key Engineering Materials, 巻. 719, Trans Tech Publications Ltd, pp. 132-136, International Conference on Advanced Materials Research and Manufacturing Technologies, AMRMT 2016, Singapore, シンガポール, 18-20 8月. DOI: 10.4028/www.scientific.net/KEM.719.132
      Sakamoto S, Hayashi K, Gemma M, Kondo Y, Yamaguchi K, Yamaguchi M その他. The wear characteristics of a wire tool in the microgrooving of ceramics. : Advanced Materials Research and Technologies. 巻 719. Trans Tech Publications Ltd. 2017. p. 132-136. (Key Engineering Materials). 利用可能場所, DOI: 10.4028/www.scientific.net/KEM.719.132

      Sakamoto, Satoshi; Hayashi, Keitoku; Gemma, Masaya; Kondo, Yasuo; Yamaguchi, Kenji; Yamaguchi, Mitsugu; Fujita, Tsuyoshi / The wear characteristics of a wire tool in the microgrooving of ceramics.

      Advanced Materials Research and Technologies. 巻 719 Trans Tech Publications Ltd, 2017. p. 132-136 (Key Engineering Materials; 巻数 719).

      研究成果: 著書の章/レポート/会議のプロシーディングス会議での発言

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      AB - A wire tool having electrodeposited diamond grains is frequently used for machining hard and brittle materials such as silicon ingots, magnetic materials, ceramics, and sapphires. This study aims to examine the wear characteristics of the tool during the microgrooving of ceramics. We conducted microgrooving experiments for alumina ceramics. The results indicate that the grooving time and the machining distance influence the groove depth. However, as the damage in a wire tool progresses, the groove depth does not depend on the machining distance. A fast relative velocity leads to serious damage in the wire tool even when the machining time is short. In the case of wet grooving, the damage to the wire tool was smaller than that in the case of dry grooving.

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