采用SEM,EDS等对融渗工艺制备的C/Ti比x分别为0.6、0.7、0.8和0.9的四种不同TiCx/Ni3Al复合材料进行了研究,证实Ti元素向金属相存在较强的扩散,而Ni和Al元素几乎没有向陶瓷相中扩散,扩散的结果形成了两相界面之间直接的原子结合,增加了复合材料相界面结合的强度和韧性.利用纳米压痕技术研究了复合材料相界面附近的纳米硬度H和弹性模量E,二者在相界面附近均呈连续梯度分布特征,并且TiC0.7/Ni3Al复合材料在界面处具有较高的纳米硬度值.
参考文献
| [1] | Liu C T, Stiegler J O. Science, 1984; 226:636 |
| [2] | Zhang L M, Yuan R Z, Oomori M, Hirai T. J Mater SciLett, 1995; 14:1620 |
| [3] | Becher P F, Plucknett K P. J Europ Ceramic Society, 1997; 18:395 |
| [4] | Subramanian R, Schneibel J H, Alexander K B, Plucknett K P. Scr Mater, 1996; 35:583 |
| [5] | Miyahara K, Nagashima N, Ohmura T, Matsuoka S. NanoStructured Materials, 1999; 12:1049 |
| [6] | Woirgard J, Dargenton J C, Tromas C, Audurier V. Surf & Coat Technol, 1998; 100-101:103 |
| [7] | Tabor D. Phil Mag, 1996; 147A: 1207 |
| [8] | Randall N X, Schmutz C J, Soro J M. Surf & Coat Tech nol, 1998; 108-109:489 |
| [9] | Pethica J B, Hutchings R, Oliver W C. Philos Mag, 1983; 48A: 593 |
| [10] | Oliver W C, Pharr G M. J Mater Res, 1992; 7:1564 |
| [11] | Habelitz S, Marshall S J, Marshall Jr G W, Balooch M. Achives of Oral Biology, 2001; 46:173 |
| [12] | Boudoukha L, Halitim F, Paletto S, Fantozzi G. Ceramics International, 1998; 24:189 |
| [13] | Ding Y Q, Zhang Y, Northwood D O, Alpas A T. Surf & Coat Technol, 1997; 94-95:483 |
| [14] | Mante F K, Baran G R, Lucas B. Biomaterials, 1999; 20: 1051 |
| [15] | Hainsworth S V, Page T F. J Mater Sci, 1994; 29:5529 |
| [16] | Mayo M J, Siegel R W, Narayanasamy A, Nix W D. J Mater Res, 1990; 5:1073 |
| [17] | Zhang L M, Tu R, Yuan R Z. Acta Mater Comp Sin, 1995; 12:22(张联盟,涂溶,袁润章复合材料学报,1995;12:23) |
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