Space Materials and Technologies

Power consumption of major factors of heat absorption in aerodynamic heating of heat-protective coatings of objects of space-rocket engineering. II. Limit power consumption of surface processes of absorption of heat at thermal destruction of a material

1Frolov GA. Power consumption of major factors of heat absorption in aerodynamic heating of heat-protective coatings of objects of space-rocket engineering. II. Limit power consumption of surface processes of absorption of heat at thermal destruction of a material. Kosm. nauka tehnol. 2003 ;9(2-3):068-076.

Power consumption of major factors of heat absorption in aerodynamic heating of heat-protective coatings of objects of space-rocket engineering І. Limiting power consumption of internal processes of heat absorption in thermal destruction of a material

1Frolov GA. Power consumption of major factors of heat absorption in aerodynamic heating of heat-protective coatings of objects of space-rocket engineering І. Limiting power consumption of internal processes of heat absorption in thermal destruction of a material. Kosm. nauka tehnol. 2003 ;9(2-3):058-067.

Problems on scientific and methodical maintenance of development and operation of heat-protective coatings for heat-stressed elements of objects of space-rocket engineering.ІІ. Experimental modelling of aerodynamic heating of heat-protective coatings

1Frolov GA, Pasichnyi VV, 2Timoshenko VI. Problems on scientific and methodical maintenance of development and operation of heat-protective coatings for heat-stressed elements of objects of space-rocket engineering.ІІ. Experimental modelling of aerodynamic heating of heat-protective coatings. Kosm. nauka tehnol. 2003 ;9(2-3):045-057.

Problems on scientific and methodical maintenance of development and operation of heat-protective coatings for heat-stressed elements of space-rocket engineering. I. Mathematical simulation of processes of the destruction of heat-protective materials

1Timoshenko VI, 2Frolov GA. Problems on scientific and methodical maintenance of development and operation of heat-protective coatings for heat-stressed elements of space-rocket engineering. I. Mathematical simulation of processes of the destruction of heat-protective materials. Kosm. nauka tehnol. 2003 ;9(2-3):034-044.

Mathematical modelling of thermal and hydrodynamic processes in the electron beam floating-zone melting of silicon monocrystal under microgravity conditions

1Asnis EA, 1Demchenko VF, 1Lesnoi AB, 1Zabolotin SP. Mathematical modelling of thermal and hydrodynamic processes in the electron beam floating-zone melting of silicon monocrystal under microgravity conditions. Kosm. nauka tehnol. 2002 ;8(5-6):112-116.

Program of the russian-ukrainian investigations of the hydrodynamics and heat transfer in liquid helium aboard the International Space Station

1Bondarenko SI, 1Gavrylov RV, 1Yeremenko VV, 1Rusanov KV, 1Shcherbakova NS, 2Dergunov IM, 2Kryukov AP, 2Korolev PV, 2Selyaninova Yu.Yu., 3Zhukov VM, et al. Program of the russian-ukrainian investigations of the hydrodynamics and heat transfer in liquid helium aboard the International Space Station. Kosm. nauka tehnol. 2002 ;8(5-6):035-038.

The elaboration of novel scientific instrumentation and antifriction materials for performing the «Material-Friction» space experiment

1Gamulya GD, 2Skorokhod VV, 2Solntsev VP, 3Surdu MN, 2Frolov GA. The elaboration of novel scientific instrumentation and antifriction materials for performing the «Material-Friction» space experiment. Kosm. nauka tehnol. 2002 ;8(5-6):028-034.

Some problems in the investigation of the processes of directional crystallization under microgravity (creating the MORPHOS installation)

1Shpak AP, 1Fedorov OP, 1Bersudsky EI, 1Zhivolub EL. Some problems in the investigation of the processes of directional crystallization under microgravity (creating the MORPHOS installation). Kosm. nauka tehnol. 2002 ;8(5-6):019-027.

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