Characteristics of cleavage fracture during interaction of nonlinear waves with the free surface of a copper single crystal

K. P. Zol'nikov, T. Yu Uvarov, A. G. Lipnitskiǐ, D. Yu Saraev, S. G. Psakh'e

    Research output: Contribution to journalArticle

    5 Citations (Scopus)

    Abstract

    A molecular dynamics method was used to study the interaction of isolated compression pulses with the (100) and (110) free surface in a copper monocrystallite. It is shown that this may be accompanied by cleavage fracture. Parameters of compression pulses which lead to cleavage processes are determined.

    Original languageEnglish
    Pages (from-to)936-937
    Number of pages2
    JournalTechnical Physics Letters
    Volume25
    Issue number12
    Publication statusPublished - Dec 1999

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    pulse compression
    cleavage
    copper
    single crystals
    interactions
    molecular dynamics

    ASJC Scopus subject areas

    • Physics and Astronomy (miscellaneous)

    Cite this

    Zol'nikov, K. P., Uvarov, T. Y., Lipnitskiǐ, A. G., Saraev, D. Y., & Psakh'e, S. G. (1999). Characteristics of cleavage fracture during interaction of nonlinear waves with the free surface of a copper single crystal. Technical Physics Letters, 25(12), 936-937.

    Characteristics of cleavage fracture during interaction of nonlinear waves with the free surface of a copper single crystal. / Zol'nikov, K. P.; Uvarov, T. Yu; Lipnitskiǐ, A. G.; Saraev, D. Yu; Psakh'e, S. G.

    In: Technical Physics Letters, Vol. 25, No. 12, 12.1999, p. 936-937.

    Research output: Contribution to journalArticle

    Zol'nikov, KP, Uvarov, TY, Lipnitskiǐ, AG, Saraev, DY & Psakh'e, SG 1999, 'Characteristics of cleavage fracture during interaction of nonlinear waves with the free surface of a copper single crystal', Technical Physics Letters, vol. 25, no. 12, pp. 936-937.
    Zol'nikov, K. P. ; Uvarov, T. Yu ; Lipnitskiǐ, A. G. ; Saraev, D. Yu ; Psakh'e, S. G. / Characteristics of cleavage fracture during interaction of nonlinear waves with the free surface of a copper single crystal. In: Technical Physics Letters. 1999 ; Vol. 25, No. 12. pp. 936-937.
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