• Received Date: 1994-04-05
  • Publish Date: 1995-09-15
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  • [1]
    Y Kamotani.A Prasa.d.Thermal convection in an enclosure due to vibration abroad a spacecraft,AIAA.Journal,19(1981),511-516.
    [2]
    R.J.Hung and L, K, Shyu,Cryogenic liquid hydrogen reorientation activated by high frequency im pulsiv; reverse gravity acceleration of geyser initiation,Microgravity Quarterly, 1(2)(1991),81-92.
    [3]
    R.J.Hung and L.K.Shyu,Space-Based cryogenic liquid hydrogen reorientation activated by tow frequency impulsive reverse gravity thruster of geyser initiation,Acta Astronautics,25(1991),709-719.
    [4]
    J.R.Hung znd L, K.Shyu,Constant reverse thrust activated reorientation of liquid hydrogen with geyser initiation,Journal of Spacecraft and Roekets,29(1992),279-285.
    [5]
    J.R.Hung and L.K.Shyu,frequency impulsive reverse Excitation of slosh waves gravity acceleration of associated with low geyser initiation,Acts Astronautica,26(1992),425-433.
    [6]
    R.J.Hung and L, K.Shyu,Medium frequency impulsive thrust activated liquid hydroen reorientation with geyser,Journal of Propulsion and Power,g(1992),987-994.
    [7]
    J. R.Hung C.C.Lee and W.F.Leslie, Response of gravity level fluctuations on the gravity prob0-B spacecraft propellant system,Journal of Propulsion and Power, 7(1991).556-564.
    [8]
    J.R.Hung, C.C.Lee and F.W.Leslie,Spacecraft dynamical distribution of fluid stresses activated by gravity fitter induced slosh waves,Journal of Guidance,Control and Dynamics,15(1992),817-824.
    [9]
    J.R.Hung,C.C.Lee and F, W.Leslie,Similarity rules in gravity jitter-related spacecraft liquid propellant slosh wHves excitation,Journal of Fluids and Structures,6(1992),493-522
    [10]
    J.R.Hung, C.C.Lee and W.F.L;slie,Effect of the baffle on the space-craft fluid prop.0llant viscous stress and moment fluctuations,Transaction of the Japan Society for Aeronautical and Space Sciences,35(1993),187-207.
    [11]
    J, R.Hung, Y.D.Tsao,B.B.Hong and F, W.Leslie,Dynamical behavior of surface tension on rotating fluids in low and microgravity environ ments,International Journal for Microgravitp Research and Applications,11(1989),81-95.
    [12]
    R.J.Hung, Y.D.Tsao,B.B.Hong and F.W.Leslie,Asymmetric bub-ble profiles in a slowly rotating helium dewar under low and microgravity environments,Acta Astronautics,19(1989).411-426.
    [13]
    R.J.Hung, Y.D.Tsao,B.B.Hong and F.W, Leslie,Bubble behaviors in a slowly rotating helium dewar in gravity probe-B spacecraft experiment,Journal of Spacecraft and Rockets,26(1989),167-172.
    [14]
    F.W.Leslie,Measurements of rotating bubble shapes in a tow gravity environment,Journal of Fluid Mechanics, 161(1985),269-275.
    [15]
    P.Mason,D, Collins,D.Petrac,L, Yang, F.Edeskuty,A, Schuch and K.Williamson.The behavior of superfluid helium in zero gravity,Proceedings 7th International Cryogenic Engineering Conferences,Surrey,England,Science and Technology Press(1978).
    [16]
    V.S.A vduyevsky (editor),Scientific Foundations of Space Manufacturing,WIR,Moscow,USSR(1984).
    [17]
    R.L. Forward,Flattening space-time near the earth,Physical Review,Series D,26(1982),735-744.
    [18]
    C.W.Misner,K.S, Thorne and J.A.,Wheeler Gravitation,W.H, Freeman Co,,San Francisco,CA,(1973),1-1279.
    [19]
    R.J, Hung and C.C.Lec,C haracteristics and behaviors of gravity probe-B spacecraft propulsion system,proceed, National Science Council (A),16(1992),339-352.
    [20]
    Weinberg, S,,Gravitation and Cosmology-Principles and Applications of General Relativity, John W iley and Sons,New York(1972),657.
    [21]
    R.J, Hung, and F.W.Leslie, Bubble shapes in a liquid-filled rotating container under tow gravity,Journal of Spacecraft and Rockets,25(1988),70-74.
    [22]
    R.J, Hung and H, L, Pan,Differences in gravity gradient and gravity jitter-excited slosh wavas in microgravity,Transactions of the Japan Society for Aeronautical and Space Sciences, 36(1993),153-169.
    [23]
    R.J, Hung and H, L, Pan,Asymmetric slosh wave excitation in liquid-vapor interface under microgravity,Acta Mechanics Sinica, 9 (4)(1993),283-311.
    [24]
    F, H, Harlow and F.E.Welch,Numerical calculation of time-dependent viscous incom pressible flow of fluid with free surface,Physics of Fluids,8(1965).2182-2189.
    [25]
    D.B.Spalding,A novel finite-difference form ulation for differential expressions involving both first and second derivatives,International Journal of Numerical Methods in Engineering, 4(1972),551-559.
    [26]
    S.V.Pata:nkcr and S.D.Spalding, A calculation procedure for heat,mass and momentum transfer in three dimensional parabolic flows.International Journal of Heat Mass Transfer, 15(1972),1787-1805.
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