6533b832fe1ef96bd129a1e6
RESEARCH PRODUCT
Influence of the Electromagnetic, G-Jitter or Thermocapillary Forces on the Stability of the Stationary Buoyancy Convection
A. Yu. GelfgatB. J. Martuzanssubject
ConvectionBuoyancyNatural convectionCapillary actionMarangoni numberRayleigh numberengineering.materialMagnetic fieldPhysics::Fluid DynamicsGravitationClassical mechanicsPhysics::Space PhysicsengineeringMathematicsdescription
Microgravity conditions seem to be very useful for crystal growth processes. Reduced gravitational force strongly weakens the buoyancy convection, so the convective oscillations in the melt become impossible [1]. This is the main reason of numerous attempts to obtain monocrystal materials with homogeneous internal structure in microgravity. On the other hand for non-isothermal fluid in microgravity conditions other driving forces become more significant than on the Earth. The main of them are thermocapillarity and g-jitter. The thermocapillary forces exist on the non-uniformly heated free liquid surfaces and cause motion of the fluid. The g-jitter appears in space unavoidably because of the vibrations of a spacecraft. So, the investigation of combined gravitational — thermocapillary and gravitational — g-jitter convective flows is necessary for better control of crystal growth processes in microgravity.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1992-01-01 |