This study reports the significantly enhanced aluminizing behaviors of a low carbon steel at temperatures far below the austenitizing temperature, with a nanostructured surface layer produced by surface mechanical attrition treatment (SMAT). A much thicker iron aluminide compound layer with a much enhanced growth kinetics of η-Fe2Al5 in the SMAT sample has been observed relative to the coarse-grained steel sample. Compared to the coarse-grained sample, a weakened texture is formed in the aluminide layer in the SMAT sample. The aluminizing kinetics is analyzed in terms of promoted diffusivity and nucleation frequency in the nanostructured surface layer.
参考文献
| [1] | R Mevrel;C Duret;R Pichoir .[J].Journal of Materials Science and Technology,1986,2:201. |
| [2] | K Murakami;N Nishida;K Osamura;Y Tomota T Suzuki .[J].Ada Mater,2004,52:2173. |
| [3] | R W Richards;R D Jones;P D Clements;H Clarke .[J].International Materials Reviews,1994,39:191. |
| [4] | Z. D. Xiang;P. K. Datta .Relationship between pack chemistry and aluminide coating formation for low-temperature aluminisation of alloy steels[J].Acta materialia,2006(17):4453-4463. |
| [5] | K Lu;J Lu .[J].Journal of Materials Science and Technology,1999,15:193. |
| [6] | K. Lu;J. Lu .Nanostructured surface layer on metallic materials induced by surface mechanical attrition treatment[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2004(0):38-45. |
| [7] | N. R. Tao;Z. B. Wang;W. P. Tong;M. L. Sui;J. Lu;K. Lu .An investigation of surface nanocrystallization mechanism in Fe induced by surface mechanical attrition treatment[J].Acta materialia,2002(18):4603-4616. |
| [8] | H. W. Zhang;Z. K. Hei;G. Liu;J. Lu;K. Lu .Formation of nanostructured surface layer on AISI 304 stainless steel by means of surface mechanical attrition treatment[J].Acta materialia,2003(7):1871-1881. |
| [9] | L. Zhou;G. Liu;X.L. Ma .Strain-induced refinement in a steel with spheroidal cementite subjected to surface mechanical attrition treatment[J].Acta materialia,2008(1):78-87. |
| [10] | W.L. Li;N.R. Tao;K. Lu .Fabrication of a gradient nano-micro-structured surface layer on bulk copper by means of a surface mechanical grinding treatment[J].Scripta materialia,2008(5):546-549. |
| [11] | W P Tong;N R Tao;Z B Wang;J Lu K Lu .[J].Science,2003,299:686. |
| [12] | Z.B. Wang;J. Lu;K. Lu .Chromizing behaviors of a low carbon steel processed by means of surface mechanical attrition treatment[J].Acta materialia,2005(7):2081-2089. |
| [13] | G H Meier;C Cheng;R A Perkins;W Bakker .[J].Surface and Coatings Technology,1989,39-40:53. |
| [14] | W C Oliver;G M Pharr .[J].Journal of Materials Research,1992,7:1564. |
| [15] | P. N. Bindumadhavan;S. Makesh;N. Gowrishankar;Heng Keng Wah;O. Prabhakar .Aluminizing and subsequent nitriding of plain carbon low alloy steels for piston ring applications[J].Surface & Coatings Technology,2000(2/3):252-259. |
| [16] | C. Suryanarayana .Nanocrystalline materials[J].International Materials Reviews,1995(2):41-64. |
| [17] | Z. B. Wang;N. R. Tao;W. P. Tong;J. Lu;K. Lu .Diffusion of chromium in nanocrystalline iron produced by means of surface mechanical attrition treatment[J].Acta materialia,2003(14):4319-4329. |
| [18] | Z B Wang;K Lu;G Wilde;S Divinski .[J].Applied Physics Letters,2008,93:131904-131901. |
| [19] | Z D Xiang;P K Datta .[J].Scripta Materialia,2006,55:1151. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%