采用纳米压入方法表征了热浸镀铝钢表面由Al2O3层、Al层和FeAl层组成的复合涂层的纳米硬度、弹性模量及断裂韧性等微观力学性能,采用扫描电镜(SEM)观察了纳米压痕形貌,并分析了孔洞对陶瓷层的纳米压入行为和压痕裂纹扩展的影响.结果表明:等离子体电解氧化(PEO)陶瓷层中包含许多微米和亚微米尺度的细小孔洞,陶瓷层弹性模量约为226.4 Gpa,纳米硬度约为19.6 Gpa.当纳米压入深度为250 nm时,所测得陶瓷层的力学参数分散性较大.与FeAl层比较,PEO陶瓷层具有较高的裂纹扩展阻力. FeAl层纳米压痕顶端产生了沿直线扩展的径向裂纹;而陶瓷层纳米压痕中除径向裂纹外出现了侧边裂纹.
参考文献
| [1] | Yerokhin A L,Nie X,Leyland A,Matthews A.Surf Coat Technol,1999; 122:73 |
| [2] | Guan Y J,Xia Y.Trans Nonferrous Met Soc Chin,2006;16:1097 |
| [3] | Xue W B,Deng Z W,Chen RY,Zhang T H.Thin Solid Films,2000; 372:114 |
| [4] | Wu Z Q,Xia Y,Guan Y J.Trans Mater Heat Treat,2006;27(2):103(吴振强,夏原,关永军.材料热处理学报,2006;27(2):103) |
| [5] | Wu Z Q,Xia Y,Zhang C J,Li G.J Inorg Mater,2007;22:534(吴振强,夏原,张春杰,李光.无机材料学报,2007;22:534) |
| [6] | Gu W C,Shen D J,Wang Y L,Chen G L,Feng W R,Zhang G L,Fan S H,Liu C Z,Yang S Z.Appl Surf Sci,2006; 252:2977 |
| [7] | Yu S X,Xia Y,Guan Y J.Trans Nonferrous Met Soc Chin,2004:14(Suppl.2):310 |
| [8] | Fischer-Cripps A C.Nanoindentation.New York:Spring-Verlag,2002:96 |
| [9] | Oliver W C,Pharr G M.J Mater Res,1992; 7:1564 |
| [10] | Page T F,Oliver W C,McHargue C J.J Mater Res,1992;7:450 |
| [11] | Zhai C S,Yang L,Wang J,Zhao W B,Sun B D.J Inorg Mater,2005; 20:1500(翟长生,杨力,王俊,赵文明,孙宝德.无机材料学报,2005;20:1500) |
| [12] | Voevdin A A,Yerokhin A L,Lyubimov V V,Donley M S,Zabinski J S.Surf Coat Technol,1996; 86-97:516 |
| [13] | Xue W B,Deng Z W,Chen R Y,Zhang T H.Aeta Metall Sin,1999; 35:638(薛文斌,邓志威,陈如意,张通和.金属学报,1999;35:638) |
| [14] | Xin S G.Song L X,Zhao R G,Hu X F.Surf Coat Teehnol,2005; 199:184 |
| [15] | Curran J A,Clyne T W.Surf Coat Teehnol,2006; 54:1985 |
| [16] | Anstis G R,Chantikul P,Lawn B R,Marshall D B.J Am Ceram Soc,1981; 64:533 |
| [17] | [171 Zhang T H.J Exp Mech,2004; 19:437(张泰华.实验力学,2004;19:437) |
| [18] | Palmqvist S.Jernkontorets Ann,1957; 141:303 |
| [19] | Zhang S,Sun D,Fu Y Q,Du H J.Surf Coat Technol,2005; 198:74 |
| [20] | Xu Z H,Rowcliffe D.Surf Coat Technol,2002; 161:44 |
| [21] | Luo H,Goberman D,Shaw L,Gell M.Mater Sci Eng,2003; A346:237 |
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