Add to ORKGThe high vacuum and weightlessness of outer space offer great possibilities for the new field of space technology. To take advantage of this, it is necessary to study such physical and chemical phenomena as diffusion, surface tension, heat exchange, and crystallization. The research shows the possibility of obtaining materials with a more perfect structure. Methods of treating materials can be used in space which are impossible on earth. Achievements in material science in outer space will have a large impact on the national economy
A comprehensive survey of the flight experiments conducted in conjunction with the United States Mat...
Abstracts of reports are given which were presented at the Second All Union Seminar on Hydromechanic...
Space technology transfer is discussed as applied to the field of materials science. Advances made i...
Dimensionless conservation equations are presented and the theoretical bases of fluid behavior aboar...
The characteristics of the space environment were reviewed. Potential applications of space processi...
The primary motivation of the Materials Processing in Space program is the scientific and commercial...
The NASA Space Processing Program was initiated to develop uses of space flight that will support re...
The feasibility and possible advantages of processing materials in a nongravitational field are cons...
The Skylab and Apollo Soyuz Test Project (ASTP) missions provided the opportunity the influence of m...
Flight experiments utilizing a low gravity environment to elucidate and control various processes, o...
Weightless containerless processing for space, electromagnetic position control, force measurements ...
The scientific aspects of the Materials Processing in Space program are described with emphasis on t...
The paper presents key issues in materials processing, explains the role of gravity induced effects ...
Solidification processes and phenomena, segregation, porosity, gravity effects, fluid flow, undercoo...
The criteria for the selection of the experimental areas and individual experiments were that the ex...
A comprehensive survey of the flight experiments conducted in conjunction with the United States Mat...
Abstracts of reports are given which were presented at the Second All Union Seminar on Hydromechanic...
Space technology transfer is discussed as applied to the field of materials science. Advances made i...
Dimensionless conservation equations are presented and the theoretical bases of fluid behavior aboar...
The characteristics of the space environment were reviewed. Potential applications of space processi...
The primary motivation of the Materials Processing in Space program is the scientific and commercial...
The NASA Space Processing Program was initiated to develop uses of space flight that will support re...
The feasibility and possible advantages of processing materials in a nongravitational field are cons...
The Skylab and Apollo Soyuz Test Project (ASTP) missions provided the opportunity the influence of m...
Flight experiments utilizing a low gravity environment to elucidate and control various processes, o...
Weightless containerless processing for space, electromagnetic position control, force measurements ...
The scientific aspects of the Materials Processing in Space program are described with emphasis on t...
The paper presents key issues in materials processing, explains the role of gravity induced effects ...
Solidification processes and phenomena, segregation, porosity, gravity effects, fluid flow, undercoo...
The criteria for the selection of the experimental areas and individual experiments were that the ex...
A comprehensive survey of the flight experiments conducted in conjunction with the United States Mat...
Abstracts of reports are given which were presented at the Second All Union Seminar on Hydromechanic...
Space technology transfer is discussed as applied to the field of materials science. Advances made i...