采用低压烧结技术制备了不同Cr含量的WC-8Co硬质合金,通过XRD、SEM和力学性能测试等手段分析了Cr含量对硬质合金物相、显微结构和合金的力学性能的影响。结果表明,当Cr含量〈0.9%时,合金由WC+γ-(WC)相组成,添加量增至0.9%及以上时,组织中出现缺碳相Co3W3C;随着Cr含量的增加,WC晶粒不断细化,当添加量为0.6%时,合金的综合力学性能最佳,其抗弯强度、维氏硬度及断裂韧性分别为3885MPa、1632.4HV30、9.82MPa.m1/2。
WC-8Co cemented carbide added with different content of Cr was obtained by the low pressure sintering technology. The microstructure, phase of the alloys were studied by using scanning electron microscopy (SEM) and X-ray diffraction analysis (XRD) ,and compared the mechanical properties. The experiment results show that, when the content of Cr was inferior to 0.9%, the microstructure of alloys consisted of WC and 7 solid solution. As the content of Cr reached 0. 9%, the ternary W3Co3C phase emerged; the growth of WC grains was inhibited sufficiently. The better synthetically mechanical property was obtained by addition of 0.60%. The bending strength, Vickers hardness and fracture toughness were: 3885MPa, 1632. 4HV30, 9.82MPa · m^1/2.
参考文献
| [1] | 张建兵,李小强,龙雁,陈维平,李元元.高性能WC合金的研究进展[J].材料导报,2005(10):68-72. |
| [2] | 贾佐诚,陈飞雄,吴诚.硬质合金新进展[J].粉末冶金工业,2010(03):52-57. |
| [3] | 赵志伟,刘颖,宋伟强,邹文俊,左宏森,李彦涛.纳米碳化钒对超细WC基硬质合金的影响[J].功能材料,2010(02):304-306,310. |
| [4] | 邹洪伟,叶金文,刘颖,夏珊,李平平.原料粉末碳、氧含量对无粘结相硬质合金性能的影响[J].功能材料,2010(01):90-93. |
| [5] | Delanoe A;Bacia M;Pauty E;Lay S;Allibert CH .Cr-rich layer at the WC/Co interface in Cr-doped WC-Co cermets: segregation or metastable carbide?[J].Journal of Crystal Growth,2004(1/2):219-227. |
| [6] | I. Sugiyama;Y. Mizumukai;T. Taniuchi .Formation of (W,V)C_x layers at the WC/Co interfaces in the VC-doped WC-Co cemented carbide[J].International Journal of Refractory Metals & Hard Materials,2012(Jan.):185-187. |
| [7] | I. Konyashin;S. Hlawatschek;B. Ries .On the mechanism of WC coarsening in WC-Co hardmetals with various carbon contents[J].International Journal of Refractory Metals & Hard Materials,2009(2):234-243. |
| [8] | Chabretou V.;Allibert CH.;Missiaen JM. .Quantitative analysis of the effect of the binder phase composition on grain growth in WC-Co sintered materials[J].Journal of Materials Science,2003(12):2581-2590. |
| [9] | Xu Wang;Zhigang Zak Fang;Hong Yong Sohn .Grain growth during the early stage of sintering of nanosized WC-Co powder[J].International Journal of Refractory Metals & Hard Materials,2008(3):232-241. |
| [10] | Jonathan Weidow;Hans-Olof Andren .APT analysis of WC-Co based cemented carbides[J].Ultramicroscopy,2011(6):595-599. |
| [11] | Aurelie Delanoe;Sabine Lay .Evolution of the WC grain shape in WC-Co alloys during sintering: Cumulated effect of the Cr addition and of the C content[J].International Journal of Refractory Metals & Hard Materials,2009(2):189-197. |
| [12] | T. YAMAMOTO;Y. IKUHARA;T. WATANABE;T. SAKUMA;Y. TANIUCHI;K. OKADA;T. TANASE .High resolution microscopy study in Cr_(3)C_(2)-doped WC-Co[J].Journal of Materials Science,2001(16):3885-3890. |
| [13] | Jonathan Weidow;Susanne Norgren;Hans-Olof Andren .Effect of V, Cr and Mn additions on the microstructure of WC-Co[J].International Journal of Refractory Metals & Hard Materials,2009(5):817-822. |
| [14] | Jonathan Weidow;Hans-Olof Andren .Grain and phase boundary segregation in WC-Co with small V, Cr or Mn additions[J].Acta materialia,2010(11):3888-3894. |
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