Ti(C,N)基金属陶瓷的研究  被引量:43

Study of Ti(C,N) based Metal Ceramic

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作  者:贺从训[1] 夏志华[1] 汪有明[1] 赵伯琅[1] 唐群[1] 毛昌辉[1] 余明[1] 

机构地区:[1]北京有色金属研究总院

出  处:《稀有金属》1999年第1期4-12,共9页Chinese Journal of Rare Metals

摘  要:研究了合金组成及其含量、烧结工艺、热等静压等对Ti(C,N)基金属陶瓷性能的影响。氮的加入形态、N/C、钼、镍、碳对合金性能都有影响。其中,N/C比值影响粘结相、硬质相的晶格常数及钼在粘结相和SS相的溶解量。当TiN质量分数增加到26%或镍质量分数增加到25%时产生Ni3Mo相,缺碳则出现Ni3Ti相。真空烧结温度超过1450℃,TiN分解,造成合金收缩率下降。热等静压处理后,抗弯强度提高了70%以上,相对密度达到996%以上,硬度值(HRA)提高了09~17。The influences of alloy composition, sintering and HIP techniques on the properties of the Ti(C,N) based metal ceramic were studied. The results show that the nitrogen addition mode, N/C ratio, concents of Mo, Ni and C have obvious influences on the alloy properties. Different N/C ratios result in different lattice parameters of the binder and the hard phases and different dissolved content of Mo in binder and SS phases. When TiN is added up to 26% or Ni content is over 25%, the Ni 3Mo phase appears; while the lack of C content lead to the appearace of Ni 3Ti phase. When sintered at above 1450℃ in vacuum, the TiN phase is decomposed, which explains the decrease of the shrinkage during sintering. HIP treatment can greatly ameliorate the alloy properties with a improvement of 70% for bending strength and a increase of 0.9~1.7 HRA for hardness, the relative density is higher than 99.6%.

关 键 词:金属陶瓷 烧结 热等静压 性能 氮化钛 碳化钛 

分 类 号:TG148[一般工业技术—材料科学与工程] TF125.3[金属学及工艺—金属材料]

 

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