A-Z 索引
Siegel, Robert
Lewis Research Academy NASA Lewis Research Center, Cleveland, Ohio, USA
Articles:
TWO-FLUX AND GREEN'S FUNCTION METHOD FOR TRANSIENT RADIATIVE TRANSFER IN A SEMITRANSPARENT LAYER(open in a new tab) - Vol. 7 '1995(open in a new tab) - ICHMT DIGITAL LIBRARY ONLINE(open in a new tab)
INCIPIENCE, GROWTH, AND DETACHMENT OF BOIlING BUBBLES IN SATURATED WATER FROM ARTIFICIAL NUCLEATION SITES OF KNOWN GEOMETRY AND SIZE(open in a new tab) - Vol. 13 '1966(open in a new tab) - International Heat Transfer Conference 3 (open in a new tab)
AN ANALYSIS OF THE TRANSIENT SOLIDIFICATION OF A FLOWING WARM LIQUID ON A CONVECTIVELY COOLED WALL(open in a new tab) - Vol. 14 '1966(open in a new tab) - International Heat Transfer Conference 3 (open in a new tab)
CONFORMAL MAPPING PROCEDURE FOR TRANSIENT AND STEADY-STATE TWO-DIMENSIONAL SOLIDIFICATION(open in a new tab) - Vol. 2 '1970(open in a new tab) - International Heat Transfer Conference 4(open in a new tab)
EXPERIMENTAL STUDY OF FREEZING AND MELTING OF FLOWING WARM WATER AT A STAGNATION POINT ON A COLD PLATE(open in a new tab) - Vol. 2 '1970(open in a new tab) - International Heat Transfer Conference 4(open in a new tab)
CONFORMAL MAPPING TECHNIQUE FOR TWO-DIMENSIONAL POROUS MEDIA AND JET IMPINGEMENT HEAT TRANSFER(open in a new tab) - Vol. 2 '1974(open in a new tab) - International Heat Transfer Conference 5(open in a new tab)
Goldstein, M. E.
CONFORMAL MAPPING PROCEDURE FOR TRANSIENT AND STEADY-STATE TWO-DIMENSIONAL SOLIDIFICATION
Savino, Joseph M.
EXPERIMENTAL STUDY OF FREEZING AND MELTING OF FLOWING WARM WATER AT A STAGNATION POINT ON A COLD PLATE
CONFORMAL MAPPING PROCEDURE FOR TRANSIENT AND STEADY-STATE TWO-DIMENSIONAL SOLIDIFICATION
AN ANALYSIS OF THE TRANSIENT SOLIDIFICATION OF A FLOWING WARM LIQUID ON A CONVECTIVELY COOLED WALL
Howell, John R.
INCIPIENCE, GROWTH, AND DETACHMENT OF BOIlING BUBBLES IN SATURATED WATER FROM ARTIFICIAL NUCLEATION SITES OF KNOWN GEOMETRY AND SIZE
Zumdieck, John F.
EXPERIMENTAL STUDY OF FREEZING AND MELTING OF FLOWING WARM WATER AT A STAGNATION POINT ON A COLD PLATE