Geodesic
Studying the stress-strain state of the bone volume under axial compression
Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mehanika, no. 3 (2013), pp. 89-95 Cet article a éte moissonné depuis la source Math-Net.Ru

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The results of computer simulation of the stress-strain state of a bone volume comprising a compact and spongy layers of different densities and undergoing axial compression are presented. Influence of changes in structural layers' densities on the change in range limits of stress and strain distributions in the bone volume and in its structural components is investigated.
Keywords: Computer simulation, compact bone tissue, spongy bone tissue, stress and strain state. 
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     author = {T. V. Kolmakova},
     title = {Studying the stress-strain state of the bone volume under axial compression},
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T. V. Kolmakova. Studying the stress-strain state of the bone volume under axial compression. Vestnik Tomskogo gosudarstvennogo universiteta. Matematika i mehanika, no. 3 (2013), pp. 89-95. http://geodesic.mathdoc.fr/item/VTGU_2013_3_a10/

[1] Barinov S. M., “Keramicheskie kompozitsionnye materialy na osnove fosfatov kaltsiya dlya meditsiny”, Uspekhi khimii, 79:1 (2010), 15–32

[2] Putlyaev V. I., “Sovremennye biokeramicheskie materialy”, Sorosovskii obrazovatelnyi zhurnal, 8:1 (2004), 44–50

[3] Arkhipov-Baltiiskii S. V., Rassuzhdenie o morfomekhanike. Norma, v 2 tomakh, Kaliningrad, 2004, 820 pp.

[4] Zioupos P., Cook R. B., Hutchinson J. R., “Some basic relationships between density values in cancellous and cortical bone”, J. Biomechanics, 41 (2008), 1961–1968 | DOI

[5] Liebschner M. A. K., “Biomechanical considerations of animal models used in tissue engineering of bone”, Biomaterials, 2004, no. 25, 1697–1714 | DOI

[6] Hernandez C. J., Simulation of Bone Remodeling During the Development and Treatment of Osteoporosis, PhD Thesis, Stanford University, 2001, 356 pp.

[7] Kolmakova T. V., “Deformatsionnoe povedenie kostnoi tkani pri osevom szhatii”, Izv. vuzov. Fizika, 55:9/3 (2012), 57–59