Literature cited
G. E. Freger, B. B. Ignat'ev, V. V. Chesnokov, N. A. Karvasarskaya, and A. M. Panfilov, “Thermal stresses in rod articles formed from composites produced by the spiral-winding method,” Mekh. Kompozitn. Mater., No. 2, 305–309 (1987).
Heyer, Russo, and Thompkins, “Thermal twisting of pipes fabricated from laminar epoxygraphite plastic,” Sovr. Mashinostr. Ser. B, No. 1, 16–23 (1989).
G. E. Freger, B. B. Ignat'ev, N. A. Karvasarskaya, V. A. Kostrub, and V. M. Semtsiv, “Stress-strain state of hybrid-composite reinforcing elements,” Voroshilovgrad Machine-Building Institute, Voroshilovgrad (1987), deposited on February 25, 1987, No. 8387 Uk. 87.
N. D. Pankratova, “Solution of the problem of the stress state of anisotropic inhomogeneous elastic bodies,” Effective Numeric Methods of Solving Edge Problems of the Mechanics of a Solid Deformable Body [in Russian], Part 2, Kharkov (1989), pp. 67–68.
Yu. M. Tarnopol'skii and V. V. Khitrov, “Composite rods for truss structures,” Mekh. Kompozitn. Mater., No. 2, 259–268 (1968).
V. V. Khitrov and Yu. I. Katarzhnov, “Production methods of improving the bearing capacity of compressible composite rods,” Mekh. Kompozitn. Mater., No. 2, 316–322 (1985).
B. B. Ignat'ev, Yu. V. Efremov, and N. A. Karvasarskaya, “Effect of structural hybridization on the delamination of compressible rods,” Use of Polymeric Composition Materials in Machine Building [in Russian], Voroshilovgrad (1987), p. 63.
G. E. Freger, B. B. Ignat'ev, and N. A. Karvasarskaya, “Peculiarities of the high-temperature performance of coaxially reinforced rod strengthening elements formed from composition materials,” Use of Plastics in Construction And the Urban Economy [in Russian], Part 1, Kharkov (1987), pp. 168–169.
N. A. Karvasarskaya, B. B. Ignat'ev, and M. L. Kats, “Optimal design of hybrid spirally reinforced fillers,” Composition Polymeric Materials — Properties, Production, and Use [in Russian], Moscow (1987).
G. E. Freger, N. A. Karvasarskaya, and B. B. Ignat'ev, “Optimal design of tubular rods formed from hybrid composites,” Theses of Papers Presented at the Sixth All-Union Conference on Optimal Control in Mechanical Systems [in Russian], Lvov (1988), pp. 56–57.
G. E. Freger and B. B. Ignat'ev, “Development of a production process for and investigation of the characteristics of spirally reinforced materials,” Composition Materials And Their Use in the National Economy [in Russian], Tashkent (1980), pp. 81–83.
G. E. Freger and B. B. Ignat'ev, “Investigation of the structure and mechanical properties of carbon-fiber-reinforced plastic based on a spirally reinforced filler,” Mekh. Kompozitn. Mater., No. 3, 397–401 (1984).
G. E. Freger, B. B. Ignat'ev, and M. L. Kats, “Investigation of the stress-strain state of reinforced materials with a small filler,” Prikl. Mekh., No. 7. 41–49 (1980).
G. E. Freger, “Investigation of the stress state of spirally reinforced highly filled composites,” Mechanics of Reinforced Plastics [in Russian], Riga (1983), pp. 23–27.
G. E. Freger, B. B. Ignat'ev, A. A. Varlamov, and M. L. Kats, “Improving the adaptability of high-modulus composition materials to production,” Tekhnol. Organiz. Proizodn., No. 1, 52 (1980).
Author information
Authors and Affiliations
Additional information
Translated from Mekhanika Kompozitnykh Materialov, No. 4, pp. 615–620, July–August, 1990.
Rights and permissions
About this article
Cite this article
Freger, G.E., Karvasarskaya, N.A. & Kireev, I.Y. Basic problems of the mechanics of spirally anisotropic media. Mech Compos Mater 26, 447–452 (1991). https://doi.org/10.1007/BF00612615
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00612615