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Strength of Materials

Erschienen in:

01.07.2012

Strength assessment for composite and metal-composite cylinders under pulse loading. Part 1. Rules of choosing various strength criteria for anisotropic material and comparative analysis of such criteria

verfasst von: V. A. Romashchenko

Erschienen in: Strength of Materials | Ausgabe 4/2012

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Abstract

The author formulates the rules one should follow when choosing strength criteria for a composite. A comparative analysis of Ashkenazi and Tsai–Wu strength criteria is performed for a specific orthotropic material, and the criteria are shown to agree with each other. An update of the Tsai–Wu criterion is put forward for composites that have uniform tension and compression strength.

Vorheriger Artikel On the size of cylindrical specimens with a circumferential crack for evaluating the fracture toughness of materials

Nächster Artikel Refinement of an elastic-viscoplastic model of deformation by taking into account the metal damage under cyclic loading

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A. G. Fedorenko, M. A. Syrunin, and A. G. Ivanov, “Dynamic strength of shells made of oriented fibrous composites under explosive loading (review),” Prikl. Mekh. Teoret. Fiz., No. 1, 126–133 (1993).

V. A. Ryzhanskii, V. N. Rusak, and A. G. Ivanov, “Assessment of explosion resistance of cylindrical composite shells,” Fiz. Goren. Vzryva, 35, No. 1, 115–121 (1999).

V. I. Tsypkin, V. N. Rusak, A. G. Ivanov, et al., “Deformation and failure of two-layer metal-plastic shells under internal pulse loading,” Mekh. Kompoz. Mater., No. 5, 833–838 (1987).

E. K. Ashkenazi and É. V. Ganov, Anisotropy of Structural Materials. Handbook [in Russia], Mashinostroenie, Leningrad (1980).

V. T. Troshchenko (Ed.), Strength of Materials and Structures [in Russia], Vol. 3: P. P. Lepikhin and V. A. Romashchenko, Strength of Thick-Walled Rotational Shells under Pulse Loading, Pisarenko Institute of Problems of Strength of National Academy of Sciences of Ukraine, Kiev (2010).

S. W. Tsai and E. M. Wu, “A general theory of strength for anisotropic materials,” J. Comp. Mater., 5, 58–80 (1971).CrossRef

L. J. Broutman and R. H. Krock (Eds.), Composite Materials, in 8 volumes, Vol. 2: G. P. Sendeckyj (Ed.), Mechanics of Composite Materials, Academic Press, New York (1974).

A. K. Onkar, C. S. Upadhyay, and D. Yadav, “Probabilistic failure of laminated composite plates using the stochastic finite element method,” Comp. Struct., 77, 79–91 (2007).CrossRef

G. P. Zhao and C. D. Cho, “Damage initiation and propagation in composite shells subjected to impact,” Comp. Struct., 78, 91–100 (2007).CrossRef

10.

N. A. Abrosimov, V. G. Bazhenov, and A. V. Elesin, “Numerical analysis of dynamic deformation and buckling of composite rotational shells under pulse loading,” Mekh. Kompoz. Mater., 31, No. 1, 65–71 (1995).

11.

F. A. Baum, L. P. Orlenko, K. P. Stanyukovich, et al., Physics of Explosion [in Russian], Second edition, Nauka, Moscow (1975).

12.

S. G. Lekhnitskii, Theory of Elasticity of Anisotropic Body [in Russian], Nauka, Moscow (1977).

13.

G. S. Pisarenko, A. P. Yakovlev, and V. V. Matveev, Handbook in the Strength of Materials [in Russian], Delta, Kiev (2008).

14.

M. N. Krivosheina, A. V. Radchenko, and S. V. Kobenko, “Failure of orthotropic and isotropic spherical bodies under the uniform compression pulse,” Mekh. Kompoz. Mater. Strukt., 7, No. 1, 95–102 (2001).

15.

M. N. Krivosheina, S. V. Kobenko, and E. V. Tuch, “Averaging of properties of anisotropic composite materials in numerical modeling of their failure,” Fiz. Mezomekh., 13, 55–60 (2010).

Titel: Strength assessment for composite and metal-composite cylinders under pulse loading. Part 1. Rules of choosing various strength criteria for anisotropic material and comparative analysis of such criteria
verfasst von: V. A. Romashchenko
Publikationsdatum: 01.07.2012
Verlag: Springer US
Erschienen in: Strength of Materials / Ausgabe 4/2012
Print ISSN: 0039-2316
Elektronische ISSN: 1573-9325
DOI: https://doi.org/10.1007/s11223-012-9391-4

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