40
cooled down to the solidification point even in space and then brought back to
Earth. Such materials will possess quite unusual qualities.
In space there is no gravitational convection
8
, i.e., movements of gases or
liquids caused by difference of temperatures. It is
well-known that various
defects in semiconductors occur because of convection. Biochemists also have
to deal with the worst aspects of convection, for example, in the production of
superpure biologically active substances. Convection makes it very difficult on
Earth.
Following the launch of the first orbital stations the specialists started
experiments aimed at proving the advantages of the zero-gravity state for the
production of certain materials. In this country all orbital stations from Salyut 5
onwards were used for that purpose, as well as rockets. Since 1976 over 600
technological experiments have been carried out on board manned and
unmanned space vehicles.
The experiments proved that many of the properties of the materials ob-
tained under the zero-gravity condition were much better than those produced on
Earth. Besides, it has been established that it is necessary to develop a new
science – physics of the weightless state – which forms the theoretical basis for
space industry and space materials study. This science has basically been devel-
oped. The methods of mathematical modelling of the hydromechanical process
under the zero-gravity condition have been created with the help of computers.
Special space vehicles will also be needed for industrial production of
new-generation materials. Research has shown that the acceleration rate on
board these vehicles must be reduced to the minimum. It was found that space
platforms in independent flight carrying the equipment were most suitable for
producing materials. These vehicles will have to use their own propulsion
systems to approach their base orbital station after a certain period of time. The
cosmonauts on board the station can replace the specimens. Many new and very
interesting projects are planned for orbital stations. Here is one of them.
Convection does not allow to grow large protein crystals on Earth. But it is
possible to grow such crystals under the zero-gravity condition and to study their
structure. The data obtained during the experiments can be useful for the work
of laboratories on Earth in using the methods of gene engineering
9
. Thus, it may
be possible to make new materials in space and also to obtain valuable scientific
data for new highly efficient technologies on Earth.
Preparatory work for industrial production in space at a larger scale is be-
ing carried out in Russia, the USA, Western Europe and Japan. It should be said
that according to the estimates of American experts production of materials in
space is to bring 60 billion dollars in the future.
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