Comparative Study of Activity of Different Agings of Aluminum Nanopowders
YAN Zheng-Xin1,2, DENG Jun1, WANF Ya-Min2, LIU Wei2
1Key Laboratory of Western Mine Exploitation and Hazard Prevention of the Ministry of Education, Xi'an University of Science and Technology, Xi'an 7100542College of Science, Xi'an University of Science and Technology, Xi'an 710054
Comparative Study of Activity of Different Agings of Aluminum Nanopowders
YAN Zheng-Xin1,2, DENG Jun1, WANF Ya-Min2, LIU Wei2
1Key Laboratory of Western Mine Exploitation and Hazard Prevention of the Ministry of Education, Xi'an University of Science and Technology, Xi'an 7100542College of Science, Xi'an University of Science and Technology, Xi'an 710054
摘要The structure and activity of aluminum nanopowders with a 3nm oxide layer on their surface (3-nm-OLA) and 30nm oxide layers on their surface (30-nm-OLA) are investigated comparably under the same normal incident shock wave intensity. Their corresponding reaction products are characterized by x-ray diffraction, high-resolution transmission electron microscopy and x-ray photoelectron spectroscopy. The spectrum of x-ray diffraction shows that there are different phases of alumina in their products, which evidences directly the different reacting temperature in the shock tube. The x-ray photoelectron spectroscopy reveals that the oxide layer thickness is 30nm on the product surface of 30-nm-OLA, while it is only 3nm on 3-nm-OLA. Images of transmission electron microscopy present additional evidence that the agglomeration mechanism is over sintering one in the containing-30-nm-OLA system, the reversed mechanism is observed in the containing-3-nm-OLA reaction system.
Abstract:The structure and activity of aluminum nanopowders with a 3nm oxide layer on their surface (3-nm-OLA) and 30nm oxide layers on their surface (30-nm-OLA) are investigated comparably under the same normal incident shock wave intensity. Their corresponding reaction products are characterized by x-ray diffraction, high-resolution transmission electron microscopy and x-ray photoelectron spectroscopy. The spectrum of x-ray diffraction shows that there are different phases of alumina in their products, which evidences directly the different reacting temperature in the shock tube. The x-ray photoelectron spectroscopy reveals that the oxide layer thickness is 30nm on the product surface of 30-nm-OLA, while it is only 3nm on 3-nm-OLA. Images of transmission electron microscopy present additional evidence that the agglomeration mechanism is over sintering one in the containing-30-nm-OLA system, the reversed mechanism is observed in the containing-3-nm-OLA reaction system.
YAN Zheng-Xin;DENG Jun;WANF Ya-Min;LIU Wei. Comparative Study of Activity of Different Agings of Aluminum Nanopowders[J]. 中国物理快报, 2009, 26(8): 86101-086101.
YAN Zheng-Xin, DENG Jun, WANF Ya-Min, LIU Wei. Comparative Study of Activity of Different Agings of Aluminum Nanopowders. Chin. Phys. Lett., 2009, 26(8): 86101-086101.
[1] Suits B H, Apte P, Wilken D E and Siegel R W 1995 Nanostruct Mater. 6 609 [2] H. Gleiter 1992 Nanostruct. Mater. 1 1 [3] Bi X X, Ganguly B, Huffman G P, Huggins F E, Endo M, andEklund P C 1993 J. Mate. Res. 8 1666 [4] Foster C M and Parker J C 1993 J. Mater. Res. 8 1977 [5] Koch C C 1993 Nanostruct. Mater. 2 109 [6] S. Komameni 1992 J. Mater. Chem. 2 1219 [7] Glotov O G 2006 Comb. Exp. Shock Waves 42 436 [8] Karasev V V, Glotov O G and Baklonav A M 2002 33thInt. Annual Conference of ICT (Karlsruhe, Germany 25--28 June 2002)p 14 [9] O. G. Glotov, Yagodnikov D A, Zarko V E and Karasev V V2006 Combustion, Explosion, and Shock Waves 43 59 [10] Xu Y C and Daniel E R 1996 Comb. Flame 10785 [11] Kwon Y S, Alexander A G, Elenam P and Geun H R 2003 Combust. Flame 133 385 [12] Yan Z X, Wu J H, Hu D and Yan X D 2006 Chin. Phys.Lett. 32 217 [13] Incropera F P and David P D 1996 Fundamentals ofHeat and Mass Transfer 4th edn (NewYork: Willey) pp 239--326 [14] Weast R C (Editor-in-Chief) 1984 CRC Handbook ofChemistry and Physics 64th edN (Boca Raton, FL: CRC Press) [15] Aumann C E, Skofronick G L and Martin J A 1995 J.Vac. Sci. Technol. B 13 1178
2009, Vol. 26 
