A New Way to Explore Microgravity Effect by Drop Tube Experiment

Acta Metall Sin

2007, Vol. 43

Issue (7): 769-774 DOI:

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A New Way to Explore Microgravity Effect by Drop Tube Experiment

CHEN Liang; LUO Xinghong

Institute of Metal Research; Chinese Academy of Sciences

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CHEN Liang; LUO Xinghong. A New Way to Explore Microgravity Effect by Drop Tube Experiment. Acta Metall Sin, 2007, 43(7): 769-774 .

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Key words: drop tube microgravity solidification convection

Received: 25 January 2007

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[1]Greer A L.Mater Sci Eng,1994;A178:113
[2]Cech R E.Trans AIME,1956;206:585
[3]Thoma D J,Perepezko J H.Metall Trans,1992;23A:1347
[4]Norman A F,Eckler K,Gartner F,Moir S A,Zambon A, Greer A L,Ramous E,Herlac.h D M.Mater Sci Eng,1997; A226:48
[5]Zambon A,Badan B,Eckler K,Gartner F,Norman A F, Greer A L,Herlach D M.Ramons E.Acta Mater,1998; 46:4657
[6]Gao J R,Volkmann T,Roth S,L(?)ser W,Herlach D M.J Magn Magn Mater,2001;234:313
[7]Drehman A J,Turnbull D.Scr Metall,1981;15:543
[8]Steinberg J,Lord A E Jr.,Lacy L L,Johnson J.Appl Phys Lett,1981;38:135
[9]Herlach D M,Gillessen F,Volkmann T,Wollgarten M, Urban K.Phys Rev,1992;46B:5203
[10]Zhang F X,Yu R C,Wang W K.J Appl Phys,1994;76: 7559
[11]Han X J,Wang N,Wei B.Appl Phys Lett,2002;81:778
[12]Lacy L L,Rathz T J,Robinson M B.J Appl Phys,1982; 53:682
[13]Evans N D,Hofmeister W H,Bayuzick R J,Robinson M B.Metall Trans,1986;17A:973
[14]Cortella L,Vinet B,DesréP J,Pasturel A,Paxton A T, Van Schilfgaarde M.Phys Rev Lett,1993;70:1469
[15]Hofmeister W H,Robinson M B,Bayuzick R J.Appl Phys Lett,1986;49:1342
[16]Vinet B,Cortella L,Favier J J.Appl Phys Lett,1991;58: 97
[17]Herlach D M,Cochrane R F,Egry I,Fecht H J,Greer A L.Int Mater Rev,1993;38:273
[18]Gale W F,Totemeier T C.Smithells Metals Reference Book.8th edition,New York:Elsevier,2004:8
[19]Lee E S,Ahn A.Acta Metall Mater,1994;42:3231
[20]Wang H Y,Liu R P,Zhan Z J,Sun L L,Wang W K.Acta Metall Sin,2005;41:940 (王海燕,刘日平,战再吉,孙力玲,王文魁．金属学报,2005; 41:940)m

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