Technical mechanics in the space rocket research: developments of the Institute of Technical Mechanics of the NAS of Ukraine and the NSA of Ukraine

1Pilipenko, VV
1Institute of Technical Mechanics of the National Academy of Sciences of Ukraine and State Space Agency of Ukraine, Dnipropetrovsk, Ukraine
Kosm. nauka tehnol. 1997, 3 ;(3):065–083
https://doi.org/10.15407/knit1997.05.065
Section: Space Instruments
Publication Language: Russian
Abstract: 
We describe some results of collaborative engineering of space rocket systems in the Institute of Industrial Mechanics, NAS Ukraine, and the National Space Agency of Ukraine. The lines of further development of industrial mechanics in the construction of rocket carriers and spacecraft are laid down within the scope of the State Space Program of Ukraine
Keywords: space rocket industry, space technical mechanics
References: 
Pilipenko V. V. An energy approach to the analysis of cavitational self-oscillations in pump systems. Kosmicheskie Issledovaniia na Ukraine, Is. 10, 68—73 (1977) [in Russian].
Pilipenko V. V. The theoretical analysis of the system auger centrifugal pump piping considering elasticities concentrated at the inlet and outlet of the pump. In: Workflows in the screw centrifugal pumps, Is. 10, 86—92 (Nauk. dumka, Kiev, 1979) [in Russian].
Pilipenko V. V. To determine the frequency of the pressure oscillations generated by cavitation generator. In: Dynamics of pumping systems, 115—119 (Nauk. dumka, Kiev, 1980) [in Russian].
Pilipenko V. V. Cavitation for a swirling flow in a circular tube. In: Mathematical model of working processes in hydro pneumatic systems, 3—12 (Nauk. dumka, Kiev, 1981) [in Russian].
Pilipenko V. V. Determination of the pressure oscillation amplitudes generated cavitation generator. In: Mathematical model of working processes in hydro pneumatic systems, 18—24 (Nauk. dumka, Kiev, 1981) [in Russian].
Pilipenko V. V. Determining the propagation velocity perturbation in the pipeline when the rotational-translational motion of liquid with formation of the cavitation cavity. Hydro power plants gas dynamics, 3—5(Nauk. dumka, Kiev, 1985) [in Russian].
Pilipenko V. V. On the possibility of increasing the longitudinal stability of the rocket with liquid fuel. In: Tehn. mehanika raket.-kosm, sistem: Sb. nauch. tr., Is. 1, 5—16 (Izd-vo ITM AN Ukrainy, Dnepropetrovsk, 1986) [in Russian].
Pilipenko V. V. Cavitation Self-Oscillations [Kavitatsionnye avtokolebaniya], 316 p. (Naukova dumka, Kiev, 1989) [in Russian].
Pilipenko V. V., Zadontsev V. A. A mechanism of oscillation in the hydraulic system with the cavitating Venturi. Cavitation Self-Oscillations in the Pumping Systems, Pt. I, 93—103 (Nauk. dumka, Kiev, 1976) [in Russian].
Pilipenko V. V., Kvasha Yu. A. Cavitation lattice wrap plates. Izvestiia AN SSSR, Energetika i Transport, No. 3, 139—143 (1991) [in Russian].
Pilipenko V. V., Momot V. E. Numerical Simulation of 3D Viscous Cavitation Flow in Blade Hydromachines. Dop. NAN Ukrai'ny. Matematyka, pryrodoznavstvo, tehnichni nauky, No.4, 41—44 (1995) [in Russian].
Pilipenko V. V., Semenov Yu. A. Calculation of the static characteristics auger centrifugal pumps, taking into account cavitation phenomena. Izv. RAN. Jenergetika, No.3, 104—112 (1994) [in Russian].
Pilipenko V. V., Chalyj P. P. On modeling the longitudinal oscillations of the rocket body at the shooting stand. In: Tech. mechanic space-rocket systems: Sci. Proc., Is. 1, 48— 58 (Izd-vo ITM AN Ukrainy, Dnepropetrovsk, 1986) [in Russian].
Pilipenko V. V., Zadontsev V. A., Natanzon M. S. Cavitational self-oscillations and the dynamics of hydraulic systems, 352 p. (Mashinostroenie, Moscow, 1977) [In Russian].
Pilipenko V. V., Zadontsev V. A., Grigor'ev Yu. E., Beleckij A. S. The effect of nonlinearities due to cavitation effects in pumps, to limit the amplitude of the longitudinal oscillations. In: Proc. permanent anniversary scientific and engineering  workshop, Is. 15, 61—63 (Izd-vo SVVKI-URV, Saratov, 1983) [In Russian].
Pirozhenko A. V. Three-dimensional motion of two bodies with an elastic nonrestraining tether. Prikladnaia Mekhanika, 25 (11), 100—106 (1989) [In Russian].
Pirozhenko A. V. Equations of the perturbed motion of an elastically tethered material point. Prikladnaia Mekhanika, 26 (5), 126—129 (1990) [In Russian].
Pirozhenko A. V. Control of the motion of two tethered bodies in a gravitational field by varying the tether length. Kosmicheskie Issledovaniia, 30 (4), 473—482 (1992) [In Russian].
Poshivalov V. P. Long-term strength and durability of structural elements (Dlitel'naja prochnost' i dolgovechnost' jelementov konstrukcij), 118 p. (Nauk. dumka, Kiev, 1992) [in Russian].
Reznichenko N. P., Shuvalov V. A. Transferring the energy of atomic ions from a supersonic flow of a partially dissociated gas to the surface of a solid. Zhurn. prikl. mekh. i tekhn. fiziki, No. 6, 11 — 19 (1989) [in Russian].
Timoshenko V. I. Supersonic Flows of Viscous Gas [Sverhzvukovye techenija vjazkogo gaza], 187 p. (Naukova Dumka, Kiev, 1987) [in Russian].
Timoshenko V. I., Limansky A. V. Numerical Computer Solution Technology for Gas-Dynamics Problems, 231 p. (Naukova Dumka, Kiev, 1985) [in Russian].
Cherniavskaia S. S. Investigation of the dynamics of a system of bodies containing extended elastic components in a central force field. Kosmicheskaia Nauka i Tekhnika, Is. 2, 28—31 (1987) [In Russian].
Cherniavskaia S. S.  By modeling the dynamics of the elastic arm. Izv. AN SSSR. Mehanika tverdogo tela, No.3, 41—47 (1987) [In Russian].
Shichanin V. P., Kulik A. D. On the harmonic linearization nonlinearities at the two-frequency input signal. Izv. AN SSSR. Tehnicheskaja kibernetika, No.4, 170—179 (1976) [In Russian].
Shuvalov V. A. Flow of a nonequilibrium rarefied plasma past a sphere. Geomagnetizm i Aeronomiia, 19 (6), 994—1000 (1979) [In Russian].
Shuvalov V. A. Structure of the near wake behind a cylinder in a nonequilibrium rarefied plasma flow. Geomagnetizm i Aeronomiia, 20 (3), 425—429 (1980) [In Russian].
Shuvalov V. A. Energy accommodation for gas ions on a polycrystalline material. Zhurn. prikl. mekh. i tekhn. fiziki, No. 6, 17—25 (1983) [in Russian].
Shuvalov V. A. Effect of self-magnetic field on the structure of the perturbed region near an object in a low-density plasma stream. Zhurnal Tekhnicheskoi Fiziki, 54 (6), 1107—1113 (1984) [in Russian].
Shuvalov V. A. On the exchange of energy and momentum of a rarefied plasma ion flux with the surface coated with a thin dielectric layer. Teplofizika vysokih temperatur, 25 (4), 644—648 (1987) [in Russian].
Shuvalov V. A. Modeling the interaction of bodies with the ionosphere, 180 p. (Nauk. dumka, Kiev, 1995) [in Russian].
Shuvalov V. A., Bystritskii M. G., Churilov A. E. Effect of charged-particle distribution on electromagnetic-wave scattering by a metallic body in a low-density plasma stream. Zhurnal Tekhnicheskoi Fiziki52 (2), 10— 16 (1982) [in Russian].
Yatsunenko A. G., Orekhov B. V., Sukhanov A. I. Selective power meter INC-84. The interaction of electromagnetic waves with semiconductors: Proc. 11th All-Union school-confer., 132—133 (Saratov, 1988) [in Russian].
Bass V. P. Some results of numerical solutions, laboratory and flight experiments in the field of rarefied gas dynamics. Rarefied Gas Dynamics: Abstr. 17th Intern. Symp. RGD, July 8—14, Aachen, Germany, 1990, Vol. 1, 275—277 (1990).
Bass V. P. Numerical Modelling of Mass Transfer Processes Near-Spacecrafts. First Intern. Workshop «Numerical Methodin RGD», Varna, 12—16 September, 1991.
Diomin Y. V., Kovtun E. N., Markova O. M. Self-excited vibrations of Railway Vehicle with Dry Friction Units. Vehicle System Dynamics, 23 (1), 71—83 (1994).
https://doi.org/10.1080/00423119408969050
Gorbuntzov V. V. Classification of Optimization Problems for Discrete Stationary Processes: a Semigroup Approach. Intern. Conf. «Semigroups and Their Applications, Including Semigroup Rings» in Honour of E. S. Ljapin. St.-Petersburg, Russia, 19—30 June, 1995: Abstracts, 17—18 (1995).
Martin A. B., Kessel R. L., Svenes K., et al. Spacecraft-plasma interactions and electromagnetic effects in Leo and polar orbits. ESTEC Contract N 7989/88 NL/PB(SC) ESA CR(P), 3025, Vol. 1 (1990).
Pilipenko V. V. Providing the LPRE-Rocket Structure Dynamic Compatibility. AIAA/SAE/ASME/ASEE 29th Joint Propulsion Conf. and Exhibit (June 28—30, 1993), P. 10 (Monterey, CA, 1993).
Pilipenko V. V., Semenov Yu. A., Drozd V. A. Dynamic Properties of a Cavitating Inducer-type Centrifugal Pump with Flexible Screw Fastening. The Second Russian-Sino Symp. on Astro-nautical Scince and Technique: the Simposium dedicate to 50th Anniversary of Samara Aviation Institute Founding (June, 30— July, 4, 1992), P. 51 (Samara, 1992).
Pilipenko V. V., Zadontsev V. A., Grigoriev Yu. E., Dovgot'ko N. I. POGO-stability Analysis in Frequency Domain: Effect of Cavitation in Axial Inducers. The Second Russian-Sino Symp. on Astronautical Scince and Technique: the Simposium dedicate to 50th Anniversary of Samara Aviation Institute Founding (June, 30—July, 4, 1992), P. 64 (Samara, 1992).
Podolinny A. M., Izhko V. A., Zhechev M. M. et al. Single-Station Technology of Ballistics and Navigation Support for SC SICH-1 Mission Control. Proc. of Fourth Ukraine-Russia-China Symp. on Space Science and Technology, 12—17 September 1996, Vol. 1, 516—518 (Kiev, 1996).
Rijov Yu. A., Bass V. P., Kovtunenko V. M., et al. Aerodynamic Problems of Space Probes in Comet Atmosphere. Rarefied Gas Dynamic: 13 Intern. Symp. on Rarefied Gas Dynamic, Vol. 1, 503—511 (Plenum Press, New York, 1982).
Shuvalov V. A. Efficiency of neutralization of high—volt bulk and surface charges by electric reaction propulsion systems fluxes. Abst. II-nd German Russian conf. of electric propulsion engines and their technical applications, P. 210 (Moscow, 1993).
Shuvalov V. A., Gubin V. V., Priymak A. I., et al. Charging— discharging processes and electrophysical characteristics of dielectric materials of spacecraft outer surface. Abst. Inter. conf. «Problems of spacecraft-environment interactions», P. 44 (Novosibirsk, 1992).
Yatsunenko A. G., Privalov E. N., Prokhorov E. F. Solid-state millimeter-wave devices based on waveguide integration technology. Proc. Intern. Symp. on Recent Advances in Microwave Technology, 155—158 (Kiev, 1995).

Zhechev M. M. Dynamic Equations for Loaded Space Manipulators in Excessive Systems of Independent Generalized Coordinates. Proc. of ICIAM-95, Hamburg, Germany, June 3—7, 1995, P. 489 (1995).