Bibliography |
- Zhigun I.G., Dushin M.I., Polyakov V.A., Yakushin V.A. Kompozitsonnye materialy, armirovannye sistemoy pryamykh vzaimno ortogonalnykh volokon. 2. Eksperimentalnoe izuchenie [Composite materials reinforced with a system of straight mutually orthogonal fibers. 2. Experimental study]. Mekhanika polimerov [Mechanics of polymers], 1973, no. 6, pp. 1011–1018.
- Tarnopolskiy Yu.M., Zhigun I.G., Polyakov V.A. Prostranstvenno-armirovannye kompozitsionnye materialy: spravochnik [Spatially reinforced composite materials: handbook]. Moscow, Mashinostroenie Publ., 1987. 224 p.
- Mohamed M.H., Bogdanovich A.E., Dickinson L.C., Singletary J.N., Lienhart R.R. A new generation of 3D woven fabric performs and composites. SAMPE Journal, 2001, vol. 37, no. 3, pp. 3–17.
- Schuster J., Heider D., Sharp K., Glowania M. Measuring and modeling the thermal conductivities of three-dimensionally woven fabric composites. Mechanics of Composite Materials, 2009, vol. 45, no. 2, pp. 241–254.
- Tarnopolskiy Yu.M., Zhigun I.G., Polyakov V.A. Kompozitsionnye materialy, armirovannye sistemoy pryamykh vzaimno ortogonalnykh volokon. 1. Raschet uprugikh kharakteristik [Composite materials reinforced with a system of straight mutually orthogonal fibers. 1. Calculation of elastic characteristics]. Mekhanika polimerov [Mechanics of polymers], 1973, no. 5, pp. 853–860.
- Kregers A.F., Teters G.A. Strukturnaya model deformirovaniya anizotropnykh, prostranstvenno armirovannykh kompozitov [Structural model of deformation of anisotropic, spatially reinforced composites]. Mekhanika kompozitnykh materialov [Mechanics of composite materials], 1982, no. 1, pp. 14–22.
- Yankovskii A.P. Determination of the thermoelastic characteristics of spatially reinforced fibrous media in the case of general anisotropy of their components. 1. Structural model. Mechanics of Composite materials, 2010, vol. 46, no. 5, pp. 451–460.
- Yankovskii A.P. Applying the Explicit Time Central Difference Method for Numerical Simulation of the Dynamic Behavior of Elastoplastic Flexible Reinforced Plates. Journal of Mechanics and Technical Physics, 2017, vol. 58, no. 7, pp. 1223–1241.
- Bogdanovich A.E. Nelineynye zadachi dinamiki tsilindricheskikh kompozitnykh obolochek [Nonlinear problems of the dynamics of cylindrical composite shells]. Riga, Zinatne Publ., 1987. 295 p.
- Malmeister A.K., Tamuzh V.P., Teters G.A. Soprotivlenie zhestkikh polimernykh materialov [Resistance of rigid polymer materials]. Riga, Zinatne Publ., 1972. 500 p.
- Abrosimov N.A., Bazhenov V.G. Nelineynye zadachi dinamiki kompozitnykh konstruktsiy [Nonlinear problems of dynamics composite designs]. Nizhniy Novgorod, Nizhegorodskiy gosudarstvenyy universitet Publ., 2002. 400 p.
- Reddy J.N. Mechanics of laminated composite plates and shells: Theory and analysis. 2nd ed. Boca Raton, CRC Press, 2004. 858 p.
- Kaledin V.O., Aulchenko S.M., Mitkevich A.B., Reshetnikova E.V., Sedova E.A., Shpakova Yu.V. Modelirovanie statiki i dinamiki obolochechnykh konstruktsiy iz kompozitsionnykh materialov [Modeling of statics and dynamics of shelled designs from composite materials]. Moscow, Fizmatlit Publ., 2014. 196 p.
- Yankovskii A.P. Modelirovanie dinamicheskogo uprugoplasticheskogo povedeniya gibkikh armirovannykh pologikh obolochek [Modeling of dynamic elastic-plastic behavior of flexible reinforced shallow shells]. Konstruktsii iz kompozitsion-
nykh materialov [Designs from composite materials], 2018, no. 2, pp. 3–14.
- Yankovskii A.P. Modelirovanie osesimmetrichnogo uprugoplasticheskogo deformirovaniya tsilindricheskikh voloknistykh obolochek [Modeling of axisymmetric elastoplastic deformation of cylindrical fibrous shells]. Mekhanika mashin, mekhanizmov i materialov [Mechanics of machines, mechanisms and materials], 2018, no. 2(43), pp. 68–76.
- Bosiakov S.M., Zhiwei W. Analiz svobodnykh kolebaniy tsilindricheskoy obolochki iz stekloplastika pri granichnykh usloviyakh Nave [Free vibration analysis of cylindrical shell from fiberglass with Navier boundary conditions]. Mekhanika mashin, mekhanizmov i materialov [Mechanics of machines, mechanisms and materials], 2011, no. 3(16), pp. 24–27.
- Ghulghazaryan G.R., Ghulghazaryan R.G. O svobodnykh interfeysnykh kolebaniyakh tonkikh uprugikh krugovykh tsilindricheskikh obolochek [About free interfacial vibrations of thin elastic circular cylindrical shells]. Mekhanika mashin, mekhanizmov i materialov [Mechanics of machines, mechanisms and materials], 2013, no. 4(25), pp. 12–19.
- Marchuk M.V., Tuchapskyy R.I., Pakosh V.S. Issledovanie deformirovaniya gibkikh dlinnykh pologikh nekrugovykh tsilindricheskikh paneley s zashchemlennymi prodolnymi krayami na osnove utochnennoy teorii [Study of deformation of flexible long shallow noncircular cylindrical panels with clamped longitudinal edges by refined theory]. Mekhanika mashin, mekhanizmov i materialov [Mechanics of machines, mechanisms and materials], 2015, no. 4(33), pp. 59–69.
- Agalarova I.Y. Kolebaniya podkreplennykh perekrestnymi sistemami reber anizotropnykh tsilindricheskikh obolochek s zapolnitelem pri osevom szhatii i s uchetom treniya [Oscillations of anisotropic cylindrical shells with filler supported with cross ribs system, under axial compression and given friction]. Mekhanika mashin, mekhanizmov i materialov [Mechanics of machines, mechanisms and materials], 2017, no. 1(38), pp. 57–63.
- Leonenko D.V., Zelenaya A.S. Napryazhenno-deformirovannoe sostoyanie fizicheski nelineynoy trekhsloynoy pryamougolnoy plastiny so szhimaemym zapolnitelem [Stress-strain state of a physically non-linear three-layer rectangular plate with a compressed filler]. Mekhanika mashin, mekhanizmov i materialov [Mechanics of machines, mechanisms and materials], 2018, no. 2(43), pp. 77–82.
- Reissner E. On transverse vibrations of thin shallow elastic shells. Quarterly of Applied Mathematics, 1955, vol. 13, no. 2, pp. 169–176.
- Ivanov G.V., Volchkov Yu.M., Bogulskiy I.O., Anisimov S.A., Kurguzov V.D. Chislennoe reshenie dinamicheskikh zadach uprugoplasticheskogo deformirovaniya tverdykh tel [The numerical solution of dynamic problems of elastic-plastic deformation of solids]. Novosibirsk, Sibirskiy universitet Publ., 2002. 352 p.
- Houlston R., DesRochers C.G. Nonlinear structural response of ship panels subjected to air blast loading. Computers & Structures, 1987, vol. 26, no. 1/2, pp. 1–15.
- Kompozitsionnye materialy. Spravochnik [Composite materials. Reference book]. Kiev, Naukova dumka Publ., 1985. 592 p.
- Handbook of composites. New York, Van Nostrand Reinhold Company Inc., 1982. 786 p.
- Nemirovskii Yu.V., Romanova T.P. Dynamic plastic deformation of curvilinear plates. International Applied Mechanics, 2001, vol. 37, no. 12, pp. 1568–1578.
|