比较研究了高S铸态合金Ni-25Cr-5Al-1S(mass%)及其溅射纳米涂层在1000℃的氧化行为,结果表明:铸态合金在20小时恒温氧化中生长的氧化膜在冷却时发生严重剥落,氧化膜/基体界面局部区域S含量较高;而溅射纳米涂层没有发生氧化膜剥落现象,涂层/氧化膜界面上明显无S的存在.这说明Ni-25Cr-5Al-1S合金纳米化可以有效抑制S对氧化膜/合金界面结合的"毒化效应",提高了氧化膜的粘附性.
The oxidation behavior of a high-sulfur-containing cast alloy Ni-25 Cr-5 Al-1S (mass%) and its magnetron-sputtered nanocrystalline coating were comparatively investigated in air at 1000℃ for 20 h. The oxide scale formed on the cast alloy suffered from severe spallation during cooling, and a high sulfur con-tent was detected on the spalled area. However, the oxide scale on nanocrystalline coating was good adher-ent, and no sulfur was probed at the scale/coating interface. The results strongly suggest that the nanocrys-tallization of the high S alloy can remarkably enhance the adhesion of the oxide scale formed, through sup-pressing the interface segregation of S, which is believed a "poisonous" element weakening the interface bonding.
参考文献
| [1] | Allam M,Whittle D P,Stringer J.The oxidation behavior of CoCrAl systems containing active element additions[J].Oxidation of Metals,1978,12:35. |
| [2] | Tien J K,Pettit F S.Mechanism of oxide adherence on Fe-25Cr-4Al(Y or SC) alloys[J].Metallurgical and materials Transactions A,1972,3:1587. |
| [3] | Delaunay D,Huntz A M,Lacombe P.Mechanical stresses developed in high temperature resistant alloys during isothermal and cyclic oxidation treatments:the influence of yttrium additions on oxide scale adherence[J].Corrosion Science,1980,20:1109. |
| [4] | Cotell C M,Yurek G J,Hussey R J,et al.The influence of implanted yttrium on the mechanism of growth of Cr/sub 2/O/sub 3/on Cr[J].Journal of The Electrochemical Society,1987,134:1871. |
| [5] | Leeds D G.On the reasons for the effects of dispersions of stable oxides and additions of reactive elements on the adhesion and growth-mechanisms of chromia and alumina scales-the "sulfur effect"[J].Oxidation of Metals,1987,27:75. |
| [6] | Funkenbnsch A W,Smeggil J G,Bornstein N S.Reactive element-sulfur interaction and oxide scale adherence[J].Metallurgical and materials Transactions A,1985,16:1164. |
| [7] | Smialek J K.Effect of sulfur removal on Al_2O_3 scale adhesion[J].Metallurgical and Materials Transactions A,1991,22:739. |
| [8] | HOU P Y,Moskito J.Sulfur segregation to Al_2O_3-FeAl interface studied by field emission-Auger aletren spectrocopy[J].Applied Surface Science,2003,59:559. |
| [9] | HOU P Y,Ackerman G D.Chemical state of segregants at Al_2O_3/alloy interfaces studied using μXPS[J].Applied Surface Science.,2001,178:156. |
| [10] | HOU P Y,Priimak K.Interfacial segregation,pore formation,and scale adhesion on NiAI alloys[J].Oxidation of Metals,2005,63:113. |
| [11] | JIANG,Smith,Evans.Temperature dependence of the activity of Al in dilute Ni(AI) solid solutions[M].Physical Review B74,224110(2006). |
| [12] | Wang F H,Lou H Y,Zhu S L,et al.The mechanism of scale adhesion on sputtered microerystallized CoCr Al Films[J].Oxidation of Metals,1995,43:395. |
| [13] | Yang S L,Wang F H.Effect of nanocrystallization on sulfur segregation in Fe-Cr-Al alloy during oxidation at 1000℃[J].Oxidation of Metals,2006,65:195. |
| [14] | 杨松岚,王福会,朱圣龙.柱状晶界面对溅射NiAl微晶涂层高温氧化性能的影响[J].金属学报,2001,37:625. |
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