1Wang C J, Chen S M. Microstructure and cyclic oxidation behavior of hot dip aluminized coating on Ni-base superalloy Inconel 718 [ J ]. Surface and Coatings Technology, 2006, 201:3 862-3 866. 被引量:1
2Tsaur C C, Rock J C, Chang Y Y. The effect of NaCI de- posit and thermal cycle on an aluminide layer coated on 310 stainless steel [ J ]. Materials Chemistry and Physics, 2005, 91:330- 337. 被引量:1
3Wang C I, Lee J W, Twu T I4. Corrosion behaviors of low carbon steel, SUS310 and Fe-Mn-A1 alloy with hot-dipped aluminum coatings in NaCI - induced hot corrosion [ J ]. Sur- face and Coatings Technology ,2003,163:37 -43. 被引量:1
4Cheng S J, Wang C J. Growth of intermetallic layer in the aluminide mild steel during hot - dipping [ J ]. Surface and Coatings Technology, 2009,204 : 824- 828. 被引量:1
5Lemmens B ,Garcia Y G, Corlu B, et al.Study of the electro- chemical behaviour of aluminized steel [ J ]. Surface and Coatings Technology, 2014,260 : 34- 38. 被引量:1
6Cheng W J, Wang C J. Characterization of intermetallic lay- er formation in aluminide/nickel duplex coating on mild steel [ J ]. Materials characterization, 2012,69 : 63 - 70. 被引量:1
8Heumann T, Dittrich N A.Structure character of the Fe2A15 intermetallics compound in hot dip aluminizing proccess [ J ]. Z Metallk, 1959 (50) : 617- 625. 被引量:1
9Newkirk J B . High-temperature materials coatings and sur- face interactions [ M ]. Jerusalem Israel: Freund Publishing House, 1980 : 142. 被引量:1
