| [1] | DECKARD C R. Method and apparatus for producing parts by selective sintering [P]. USA Patent:4863538,1989-09-05. |
| [2] | TANG Y,FUH J Y H,LOH H T et al. Direct laser sintering of a silica sand [J]. Materials Design,2003,24:623~629. |
| [3] | WANG X H, FUH J Y H,WONG Y S. Formation of copper-based metal part via direct laser sintering [J]. Advanced Materials Processing Ⅱ,2003(4):273~276. |
| [4] | GUO Z X, HU J D,ZHOU Zh F. Laser sintering of Cu-Sn-C system P/M alloys [J]. J Material Science, 1999,34:5403~5406. |
| [5] | SHEN P, HU J D, GUO Z X. A study on laser sintering of Fe-Cu powder compacts[J]. Metallurgical and Materials Transactions, 1999,A30:2229~2235. |
| [6] | SHEN P,GUO Z X, HU J D. Study on laser ignition of Ni-33.3at% power compacts [J]. Scripta Materials,2000,43:893~898. |
| [7] | MUNIR Z A,ANSELMI-TAMBURINI U. Self-propagating exothermic reaction:the synthesis of high-temperature materials by combustion[J]. Materials Science Report, 1989,3:277~365. |
| [8] | SIKKA V K,DEEVI S C,VOUGHT J D. Exo-Melt:a commercially viable process [J]. Advance Materials Processing, 1995,6:29~31. |
| [9] | SIKKA V K,WILKENING D,LIEBETRAU J. Melting and casting of FeAl-based cast alloy [J]. Mater Sci Engng, 1998, A258:229~235. |
| [10] | MOORE J J,FENG H J. Combustion synthesis of advanced materials (Part Ⅰ)——Reaction parameters [J]. Progress Material Science,1995,39:243~273. |
| [11] | WANG L L, MUNIR Z A, HOLT J B. The combustion synthesis of copper aluminides [J]. Metallurgical Transactions, 1990, B21:567~577. |
| [12] | MITANI H,SUZUKI M. Sintered High damping alloy of Nickel-Aluminum/Bronze [J]. Powder Metallurgical International, 1979, 11(4):183~185. |