Abstract
The deformation process of structural materials that have been developed intensively on the basis of new technologies, including engineering ceramics, is different from the deformation process of common structural materials. Relationships allowing for a proper description of the process of inelastic nonisothermal loading of components made of semibrittle materials by taking into account the physical peculiarities of the deformation process, such as a violation of the single-curve law, different resistance against strain and compression, a variation of the residual volume, etc., are presented.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Garshin, A.P., Gropyanov, V.M., Zaitsev, G.P., et al., Keramika dlya mashinostroeniya (Ceramics for Machinery), Moscow: Nauchtekhlitizdat, 2003.
Barinov, S.M. and Shevchenko, V.Ya., Prochnost’ tekhnicheskoi keramiki (Durability of Technical Ceramics), Moscow: Nauka, 1996.
Eliseev, Yu.S., Krymov, V.V., Kolesnikov, S.A., et al., Nemetallicheskie kompozitsionnye materialy v elementakh konstruktsii i proizvodstve aviatsionnykh gazoturbinnykh dvigatelei (Nonmetallic Composite Materials Used in Structural Elements and for Producing Aviation Gas-Turbine Engines), Moscow: Izdatel’stvo MGTU im. N.E. Baumana, 2007.
Frolov, K.V., Osiko, V.V., Alisin, V.V., et al., Research of Mechanical and Tribological Properties of Nanocrystal Material of New Generation on the Base of Zirconium Dioxide, Problemy mashinostroeniya i nadezhnosti mashin, 2006, no. 4, pp. 3–8.
Vikulin, V.V., Konstruktsionnaya i funktsional’naya keramika (Constructional and Functional Ceramics), Obninsk, 1997.
Gogotsi, G.A., Inelasticity of Ceramics and Fireproof Materials, Preprint of Institute of durability problems AN USSR, Kiev, 1982.
Gogotsi, G.A., Some Results of Investigation of Mechanical Properties of Structural Ceramics Used in Engines Components, Preprint of Institute of durability problems AN USSR, Kiev, 1983.
Rusinko, K.N., Osobennosti neuprugoi deformatsii tverdykh tel (Features of Inelastic Deformation of Solids), Lvov: Vishcha shkola, 1986.
Leonov, M.Ya., Panyaev, V.A., and Rusinko, K.N., The Relationship Between Deformations and Stresses for Semi-Brittle Bodies, Izv. AN USSR. MTT, 1967, no. 6, pp. 26–32.
Andrievskii, R.A. and Spivak, I.I., Prochnost’ tugoplavkikh soedinenii i materialov na ikh osnove. Spravochnik (Durability of Refractory Compounds and Materials on its Base. Handbook), Chelyabinsk: Metallurgiya, 1989.
Pisarenko, G.S. and Lebedev, A.A., Deformirovanie i prochnost’ materialov pri slozhnom napryazhennom sostoyanii (Deformation and Durability of Materials under Complex Stressed State), Kiev: Naukova Dumka, 1976.
Malinin, N.N. and Batanova, O.A., Theory of Plasticity for the Materials with Different Resistance against Tension and Compression, Izv. vuzov. Mashinostroenie, 1979, no. 12, pp. 9–14.
Ivliev, D.D. and Bykovtsev, G.I., Teoriya uprochnyayushchego plasticheskogo tela (Theory of Reinforcing Plastic Body), Moscow: Nauka, 1971.
Birger, I.A., Shorr, B.F., et al., Termoprochnost’ detalei mashin (Thermal Durability of Machine Elements), Moscow: Mashinostroenie, 1975.
Batanova, O.A. and Chainov, N.D., Computation of Stresses and Deformations in the Elements Made of Semi-Brittle Materials Used in Internal-Combustion Engines, Dvigatelestroenie, 1990, no. 4, pp. 21–24.
Author information
Authors and Affiliations
Additional information
Original Russian Text © O.A. Batanova, 2009, published in Problemy Mashinostroeniya i Mashin, 2009, No. 5, pp. 000–000.
About this article
Cite this article
Batanova, O.A. Specificity of the strength calculation of components made from brittle materials. J. Mach. Manuf. Reliab. 38, 455–459 (2009). https://doi.org/10.3103/S1052618809050082
Received:
Published:
Issue Date:
DOI: https://doi.org/10.3103/S1052618809050082