利用热重分析、扫描电镜及能谱分析等手段研究了合金中弥散分布的Y, Y2O3及离子注入Y+对Fe-23Cr-5Al合金1100 ℃恒温氧化行为的影响. 不含Y的Fe23Cr5Al合金氧化膜起皱, 长时间氧化后冷却过程中膜发生开裂剥落. 合金离子注入1×1017Y+/cm2后氧化膜粘附性得到了改善. 合金中加入弥散的Y或Y2O3改变了氧化膜形貌, 膜平坦致密, 不开裂剥落. 不含Y的Fe23Cr5Al合金氧化膜皱褶形貌的形成及膜发生剥落的原因与氧化膜生长机制及合金中S的界面偏聚有关, Y提高Fe-Cr-Al合金氧化膜粘附性的原因主要在于Y易与S形成稳定的硫化物, 从而阻止了S在膜/合金界面偏聚. Y提高Al2O3膜粘附性的原因还在于改变了Al2O3膜的生长机制.
参考文献
| [1] | MOON D P .Role of reactive elements in alloy protection[J].Materials Science and Technology,1989,5(08):754-764. |
| [2] | EVANS H E .Cracking and spalling of protective oxide layers[J].Materials Science and Engineering,1989,A120:139-146. |
| [3] | GOLIGHTLY F A;STOTT F H;WOOD G C .The influence of yttrium additions on the oxide-scale adhesion to an iron-chromium-aluminum alloy[J].Oxidation of Metals,1976,10(03):163-187. |
| [4] | TOLPYGO V K;GRABKE H J .Microstructure characterization and adherence of α-Al2O3 oxide[J].Oxidation of Metals,1994,41(5-6):343-363. |
| [5] | NORIN A .Mechanical stresses developed in austenitic Fe-Cr-Ni alloys by oxidation in CO2 atmosphere[J].Oxidation of Metals,1975,9(03):259-273. |
| [6] | HOU PY;STRINGER J .Oxide scale adhesion and impurity segregation at the scale/metal interface[J].Oxidation of Metals,1992,38(5-6):323-345. |
| [7] | SIGLER D R .Aluminum oxide adherence on Fe-Cr-Al alloys modified with group ⅢB,ⅣB,ⅤB,and ⅥB elements[J].Oxidation of Metals,1989,32(5-6):337-355. |
| [8] | SIGLER D R .Adherence behavior of oxide grown in air and synthetic exhaust gas on Fe-Cr-Al alloys containing strong sulfide-forming elements: Ca,Mg,Y,Ce,La,Ti,and Zr Oxid[J].Met,1993,40(5-6):555-583. |
| [9] | JEDLINSKI J;BORCHARDT G .On the oxidation mechanism of alumina formers[J].Oxidation of Metals,1991,36(3-4):317-337. |
| [10] | 辛丽,李美栓,钱余海,李铁藩,王福会.钇对Fe-Cr-Al合金循环氧化行为的影响[J].中国稀土学报,2000(03):239-242. |
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