Springer Nature is making SARS-CoV-2 and COVID-19 research free. View research | View latest news | Sign up for updates

Deformation behavior of human compact bone tissue upon creep under tensile testing

  • 64 Accesses

  • 11 Citations

This is a preview of subscription content, log in to check access.

Literature cited

  1. 1.

    I. V. Knets, Yu. Zh. Saulgozis, and Kh. A. Yanson, ″Deformability and strength of bone tissue upon tensile testing,″ Mekh. PolM., No. 3, 501–506 (1974).

  2. 2.

    I. V. Knets and A. K. Malmeister, ″Features of the deformability and strength of human compact bone tissue,″ Izv. Akad. Nauk Latv. SSR, No. 1, 5–16 (1977).

  3. 3.

    I. V. Knets, U. É. Krauya, and Ya. B. Laizan, ″Features of the deformation of bone tissue upon stress release and restressing,″ Mekh. Polim., No. 5, 882–890 (1976).

  4. 4.

    I. V. Knets, G. O. Pfafrod, Yu. Zh. Saulgozis, Ya. B. Laizan, and Kh. Ya. Yanson, ″The deformability and strength of compact bone tissue relative to twisting,″ Mekh. Polim., No. 5, 911–918 (1973).

  5. 5.

    G. O. Pfafrod, I. V. Knets, Yu. Zh. Saulgozis, A. F. Kregers, and Kh. A. Yanson, ″Age-related aspects of the strength of compact bone tissue relative to twisting,″ Mekh. Polim., No. 3, 493–503 (1975).

  6. 6.

    Kh. A. Yanson, I. V. Knets, and Yu. Zh. Saulgozis, ″The physiological change in bone volume upon deformation,″ Mekh. Polim., No. 4, 695–703 (1974).

  7. 7.

    J. W. Smith and R. Walmsley, ″Factors affecting the elasticity of bone,″ J. Anat.,93, No. 4, 503–523 (1959).

  8. 8.

    E. D. Sedlin, ″A rheological model of cortical bone,″ Acta Orthop. Scand., Suppl. 83 (1965).

  9. 9.

    R. S. Lakes and S. Saha, ″Behavior of bone under prolonged loading in torsion,″ in: Biomechanical Symposium ASME, AMD,23 (1977).

  10. 10.

    J. D. Currey, ″Anelasticityin bone and echinoderm skeletons,″ J. Exp. Biol.,43, 279–392 (1965).

  11. 11.

    A. A. Uten'kin and A. A. Sveshnikova, ″The effect of prolonged loading on the deformation properties of compact bone matter,″ Arkh. Anat. Gistol. Embriol.,64, No. 4, 14–20 (1973).

  12. 12.

    A. E. Melnis and Ya. B. Laizan, ″The nonlinear creep of human compact bone tissue upon tensile testing,″ Mekh, Polim., No. 1, 97–100 (1978).

  13. 13.

    I. V. Knets and Yu. K. Vilks, ″The creep of human compact bone tissue upon tensile testing,″ Mekh. Polim., No. 4, 634–638 (1975).

  14. 14.

    L. Z. Rumshinskii, The Mathematical Treatment of Experimental Results [in Russian], Moscow (1971).

Download references

Author information

Additional information

Translated fron Mekhanika Kompozitnykh Materialov, No. 5, pp. 861–867, September–October, 1979

Rights and permissions

Reprints and Permissions

About this article

Cite this article

Melnis, A.É., Knets, I.V. & Moorlat, P.A. Deformation behavior of human compact bone tissue upon creep under tensile testing. Mech Compos Mater 15, 574–579 (1980). https://doi.org/10.1007/BF00605581

Download citation

Keywords

  • Tensile Testing
  • Bone Tissue
  • Deformation Behavior
  • Compact Bone
  • Compact Bone Tissue