采用离子液体镀铝的方法,在304不锈钢薄膜上电沉积不同厚度(12mm、38mm、48mm)的铝镀层,再经热处理,制备出成分位于FeAl、FeAl。、Fe。A1。相区的铁铝化合物。用金相显微镜(OM)、X射线衍射(XRD)、扫描电子显微镜(SEM)、能谱分析(EDS)、透射电子显微镜(TEM)等手段检测铁铝化合物的形貌、组成和微观结构。结果表明,三种不同成分铁铝化合物的相结构分别为固溶合金元素Cr,Ni,Mn的FeAl相、FeAl2+Al2Fe相和Fe2Al5相;其中Al2Fe以颗粒状存在,并含高浓度的Cr;而Fe2Al5中主要晶粒含较低的Cr、高的Fe浓度,少量晶粒中含有较多的Cr元素。
AI coatings with the thickness of 12μm, 38μm and 48μm were electroplated on 304 stainless steel foils in an ionic solution. Fe-A1 intermetallics including FeA1, FeA12 and Fe2A15 were finally formed in the coatings by heat treatment following the electroplating. Microstructures and compositions of the coatings were investigated by optical microscopy (OM), X-ray diffraction (XRD), scanning electron microscope (SEM), energy dispersive spectroscopy (EDS), and transmission electron microscope (TEM). Results prove that the coatings are composed of nonstoichiometric phases of FeA1, FeAl2+Al2Fe and Fe2Al5 with alloy elements such as Cr, Mn and Ni as the solutes. Al2Fe phaseexists in the form of graininess and has high content of Cr. In most grains of F62Als however, Cr content is low and Fe content is high.
参考文献
| [1] | Andrew G. Howell;Heli Wang;Scott W. Cowley;John A. Turner .Characterization and performance of UNS S63019 (21-4N) as bipolar plate material in a simulated polymer electrolyte membrane fuel cell environment[J].Journal of Power Sources,2011(14):5922-5927. |
| [2] | jaske C E.Performance of modern high strength steels(P91,P92)in high temperature plant[A].,2007:161-170. |
| [3] | 常华,陶杰,骆心怡,张平则,刘红兵.不锈钢表面阻氚渗透涂层研究现状及进展[J].机械工程材料,2007(02):1-4,31. |
| [4] | Tarver GA;Dasgupta PK .Oil field hydrogen sulfide in Texas: Emission estimates and fate[J].Environmental Science & Technology: ES&T,1997(12):3669-3676. |
| [5] | Madali U K;Bhuvaneswaran N;Shankar P .Corrosion behavior of intermetallic aluminide coatings on nitrogen-containing austenitie stainless steels[J].Corros Sei,2004,46:2867-2892. |
| [6] | Dutta, R.S.;Majumdar, S.;Laik, A.;Singh, K.;Kulkarni, U.D.;Sharma, I.G.;Dey, G.K. .Formation and characterization of aluminide coatings on alloy 800 substrate[J].Surface & Coatings Technology,2011(19):4720-4725. |
| [7] | Yo-Yu Chang;Charng-Cheng Tsaur;James C.Rock .Mierostructure studies of an aluminide coating on 9Cr-lMo steel during high temperature oxidation[J].Surface and Coatings Technology,2006,200:6588-6593. |
| [8] | Wang, DQ .Phase evolution of an aluminized steel by oxidation treatment[J].Applied Surface Science,2008(10):3026-3032. |
| [9] | Yuan Xia;Sheng- xue Yu;Mei Yao;Tie- fan Li .Effect of diffusion on coating microstructure and oxidation resistance of aluminizing steeI[J].Transactions of Nonferrous Metals Society of China,2001,11:817-821. |
| [10] | Potesser M;Sehoeberl T.The characterization of the steel-aluminum welding[M].EPD:167-176. |
| [11] | Es3.International Center for Diffraction Data,PDF-No.FeA1[33-0020].FeAlz[33-0570].AI2FeE33-0019].FezAl[E14-0336][M].Powder Diffraction File,2004 |
| [12] | 李岩,凌国平,刘柯钊,陈长安,张桂凯.热处理对不同基体表面镀铝相结构的影响[J].材料工程,2010(02):1-5. |
| [13] | Li Yan;Xu Bajin;Ling Guoping;Liu Kezhao,Chen Chang'an,' Zhang Guikai .Formation of aluminide coatings by low- temperature heat treatment of AI coating electrodeposited from ionic liquid[J].Journal of Nuclear Materials,2011,412(02):274-277. |
| [14] | Akihiko Hirata;Yuichiro Mori;Manabu Ishimaru .Role of the triclinic Al_2Fe structure in the formation of the Al_5Fe_2-approximant[J].Philosophical Magazine Letters,2008(7):491-500. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%