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Hot Pressing Technology to Produce Wear-Resistant P/M Structural Materials with Dispersed Solid Inclusions

  • Theory, Process Technology, Articles Forming
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Powder Metallurgy and Metal Ceramics Aims and scope

Abstract

We have examined the possibility of milling iron, nickel, chromium, high-speed steel, and titanium carbide powders in an attritor (attrition mill) for use in producing carbide steel. The powders were milled to a particle size of 1–3 µm for TiC and 10 µm for metal components. As a rule, such powders and mixture of powders do not flow or form, which makes it impossible to produce blanks for hot pressing by the traditional die pressing method. Shells pressed from iron powders are proposed for forming a blank. We tested techniques for hot pressing dispersed powders into such envelopes.

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Authors and Affiliations

  1. Institute for Problems of Materials Science, National Academy of Sciences of Ukraine, Kiev, Ukraine

    T. M. Pavlygo, G. G. Serdyuk, L. I. Svistun, R. L. Plomod'yalo & L. G. Plomod'yalo

  2. Kuban' State Technological University, Krasnodar, Russia

    T. M. Pavlygo, G. G. Serdyuk, L. I. Svistun, R. L. Plomod'yalo & L. G. Plomod'yalo

  3. “Tekhosnastka-instrument” Works, Krasnodar, Russia

    T. M. Pavlygo, G. G. Serdyuk, L. I. Svistun, R. L. Plomod'yalo & L. G. Plomod'yalo

Authors
  1. T. M. Pavlygo
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  2. G. G. Serdyuk
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  3. L. I. Svistun
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  4. R. L. Plomod'yalo
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  5. L. G. Plomod'yalo
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Translated from Poroshkovaya Metallurgiya, Nos. 7–8(444), pp. 43–50, July–August, 2005.

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Pavlygo, T.M., Serdyuk, G.G., Svistun, L.I. et al. Hot Pressing Technology to Produce Wear-Resistant P/M Structural Materials with Dispersed Solid Inclusions. Powder Metall Met Ceram 44, 341–346 (2005). https://doi.org/10.1007/s11106-005-0100-8

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  • DOI: https://doi.org/10.1007/s11106-005-0100-8

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