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Al— Be alloys: Multipurpose metallic composite materials

  • Nonferrous Metals and Alloys
  • Published:
Metal Science and Heat Treatment Aims and scope

Abstract

The article is devoted to composite materials created on the basis of the technology of light alloys and developments of the All-Russia Institute of Aircraft Materials concerning beryllium alloys with a high modulus of elasticity. The competitiveness of such composite materials is determined by the high level of the specific strength properties, which exceed, in some cases, the characteristics of powder materials of a similar composition and approach the properties of titanium alloys and steels.

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References

  1. 1.Fracture Toughness Testing and Its Applications, Chicago (1964).

  2. N. M. Sklyarov, “Quality of aircraft materials, its criteria and estimation,” in:Aircraft Materials [in Russian], ONTI VIAM, Moscow (1982), pp. 60 - 66.

    Google Scholar 

  3. P. Z. Gorbunov, V. V. Gal', V. N. Ilyushin, et al., “Light beryllium-containing alloys for machine building,” in: Technology. Ser. Equipment, Materials, Processes. Coll. of Works [in Russian], Nos. 2 - 3 (1991), pp. 60 - 66.

    Google Scholar 

  4. M. Kh. Shorshorov (ed.),Fiber CM with a Metallic Matrix [in Russian], Mashinostroenie, Moscow (1981).

    Google Scholar 

  5. R. E. Shalin (ed.),Aircraft Materials. A Reference Book [in Russian], ONTI VIAM, Moscow (1983).

    Google Scholar 

  6. P. Z. Gorbunov and V. V. Gal', “Promising dispersion-hardening natural composite materials”Proizv-Tekhn. Opyt, Nos. 1 -2, 81 -84 (1993).

    Google Scholar 

  7. P. Z. Gorbunov, V. V. Gal', É. I. Illarionov, et al., “Effect of the joint manifestation of superplasticity and superelasticity in light alloys based on magnesium and aluminum and alloyed with beryllium,” in:Technology. Ser. Resourre-Saving Processes, Equipment, Materials. Coll. of Works [in Russian], No. 1, (1992), pp. 52 - 56.

    Google Scholar 

  8. “Composite materials of the AI — SiC system,”Ékolink Rossiya Mir. Nauka Tekhnol., No. 1(5), 20 (1995).

  9. I. N. Fridlyander, L. P. Yatsenko, T. I. Terent'eva, et al.,Beryllium: A Material of Modern Engineering [in Russian], Metallurgiya, Moscow (1992).

    Google Scholar 

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Authors and Affiliations

  1. All-Russia Institute of Aircraft Materials, Moscow, Russia

    I. N. Fridlyander, A. G. Bratukhin, P. Z. Gorbunov, V. V. Gal, K. P. Yatsenko & A. N. Fokanov

Authors
  1. I. N. Fridlyander
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  2. A. G. Bratukhin
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  3. P. Z. Gorbunov
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  4. V. V. Gal
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  5. K. P. Yatsenko
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  6. A. N. Fokanov
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Additional information

Translated from Metallovedenie i Termicheskaya Obrabotka Metallov, No. 9, pp. 23 – 26, September, 1996.

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Fridlyander, I.N., Bratukhin, A.G., Gorbunov, P.Z. et al. Al— Be alloys: Multipurpose metallic composite materials. Met Sci Heat Treat 38, 390–394 (1996). https://doi.org/10.1007/BF01395645

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  • DOI: https://doi.org/10.1007/BF01395645

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