一些金属基结构材料,不需要增加Cr和A1含量而只需“纳米晶化”,就能够在高温环境下形成保护性Cr2O3或Al2O3氧化膜.纳米晶化是施加高Cr高A1涂层之外提高金属材料抗高温腐蚀性能的另一途径.近20年来,纳米晶金属材料的高温腐蚀行为已广泛报道.本文简要评述了纳米晶金属材料的高温腐蚀特性、纳米晶化提高金属抗氧化性能的根本原因以及亟待澄清的问题.
参考文献
[1] | Kofstad P.High Temperature Corrosion.London:Elsevier Applied Science,1988:1 |
[2] | Nicholls J R,Simms N J,Chan W Y,Evans H E.Surf Coat Technol,2002; 149:236 |
[3] | Peng X.In:Xu H,Guo H eds.,Thermal Barrier Coatings.Cambridge,England:Woodhead Pub.Ltd.,2011:53 |
[4] | Kelly F C.Trans Electrochem Soc,1923; 43:351 |
[5] | Samuel R L,Lockidngton N A.Met Treatment Drop Forging,1951; 18:354 |
[6] | Drewett R.Anti-Corros Methods Mater,1969; 16:543 |
[7] | Goward G W.Surf Coat Technol,1998; 108-109:73 |
[8] | Geib F D,Rapp RA.OxidMet,1993; 40:213 |
[9] | Nicholls J R,Hancock P,Al Yasiri L H.Mater Sci Technol,1989; 5:799 |
[10] | Evans D J,Elam R C.USPatent,3.676.085,1972 |
[11] | Ajdelsztajn L,Picas J A,Kim G E,Bastian F L,Schoenung J,Provenzano V.Mater Sci Eng,2002; A338:33 |
[12] | Giggins C S,Pettit F S.Trans TMS-AIME,1969; 245:2509 |
[13] | Wang F,Lou H.Mater Sci Eng,1990; A43:279 |
[14] | Peng X,Wang E In:Gao W,Li Z eds.,Developments in High-temperature Corrosion and Protection of Materials.Cambridge,England:Woodhead Pub.Ltd.,2009:456 |
[15] | Umemote M,Todaka Y,Tsuchiya K.Mater Trans,2003; 44:1488 |
[16] | Tao N R,Sui M L,Lu J,Lu K.Nanostruct Mater,1999; 11:4 |
[17] | Tong W P,Tao N R,Wang Z B,Lu J,Lu K.Science,2003; 229:686 |
[18] | Yavari A R.Mater Trans,1995; 36:228 |
[19] | Peng X.Nanoscale,2010; 2:262 |
[20] | Zhang Y,Peng X,Wang F H.MaterLett,2004; 58:1134 |
[21] | Zhou Y,Peng X,Wang F H.Scr Mater,2004; 50:1429 |
[22] | Zhang C,Peng X,Zhao J,Wang F H.J Electrochem Soc,2005;152:B321 |
[23] | Douglass D L.Corros Sci,1968; 8:665 |
[24] | Chen G F,Lou HY.MaterLett,2002; 45:286 |
[25] | Singh R R K,Khanna A S,Tiwari R K,Gnanamoorttsy J B.Oxid Met,1992; 37:1 |
[26] | Singh R R K,Gnanamoorttsy J B.OxidMet,1992; 38:483 |
[27] | Singh R R K,Gnanamoorttsy J B,Roy S K.OxidMet,1994; 42:335 |
[28] | Wagner C Z.Elektrochem,1959; 63:772 |
[29] | Liu Z,Gao W,Dahm K L,Wang E Acta Mater,1998; 46:1691 |
[30] | Peng X,Wang F H.Corros Sci,2003; 45:2293 |
[31] | Dong Z,Peng X,Guan Y,Li L,Wang F H.Corros Sci,2012; 62:147 |
[32] | Huang Z,Peng X,Xu C,Wang F H.JMater Res,2007; 22:3166 |
[33] | Huang Z,Peng X,Xu C,Wang F H.J Electrochem Soc,2009;156:C95 |
[34] | Wang F H,Tian X,Li Q,Li L,Peng X.Thin Solid Films,2008;516:5740 |
[35] | Yang X,Peng X,Wang F H.JElectrochem Soc,2009; 156:C167 |
[36] | Wagner C.J Electrochem Soc,1952; 99:369 |
[37] | Lou H,Zhu S,Wang F H.Oxid Met,1995; 43:317 |
[38] | Peng X,Li M,Wang F H.Corros Sci,2011; 53:1616 |
[39] | Peng X,Yan J,Zhou Y,Wang F H.Acta Mater,2005; 53:.5079 |
[40] | Geng S,Eang F,Zhu S,Wu W.OxidMet,2002; 57:549 |
[41] | Yang X,Peng X,Wang F H.ScrMater,2007; 56:891 |
[42] | Wang F,Lou H,Zhu S,Wu W.OxidMet,1996; 45:39 |
[43] | Yang S,Wang F,Sun Z,Zhu S.Intermetallics,2002; 10:467 |
[44] | Funkenbush A M,Smeggil J G,Smeggil N S.Metall Trans,1985;16A:1164 |
[45] | Lees D G.OxidMet,1987; 27:75 |
[46] | Hou P Y.Annu Rev Mater Res,2008; 38:275 |
[47] | Li Q,Peng X,Zhang J Q,Zong G X,Wang F H.Corros Sci,2010; 52:1213 |
[48] | Evans A G,Crymley G B,Demaray R E.OxidMet,1983; 20:193 |
[49] | Suo Z.JMech Phys Solids,1995; 43:829 |
[50] | Christensen R J,Lipkin D M,Clarke D R.Acta Mater,1996; 44:3813 |
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%