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用自蔓燃高温合成(SHS)技术及电弧熔融法制备的(Nb,Ti)C固溶体作基体,制备(Nb,Ti)C-35Ni金属陶瓷。结果表明用电弧熔融法制备的(Nb,Ti)C为基的试样具较优的室温力学性能(σ=1630MPa,KIC=18.0MPa),其陶瓷颗粒均匀分行粘结相之中并是包裹结构;而用SHS法制备的(Nb,Ti)C为基的试样其力学性能相对较差,其陶瓷颗粒无包裹结构. 相似文献
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用热等静压方法制备了(Nb,TiC)C-Ni金属陶瓷并作了850℃,900℃,1000℃及1100℃下的等温氧化和室温 ̄1100℃的不等温氧化试验。在高温下,该金属陶瓷的表面被氧化成TiO2,NiO,NiTiO3。认为O2通过氧化层向反应界面的扩散是控制氧化速率的主要步骤。氧化增重遵循抛物线规律,其激活能约为234kJ/mol。 相似文献
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Nb-doped TiC ceramic,or (Nb_yTi_(1-y)) C_x, inwhich amount of Nb element added is increased from zero to40Wt.%, synthisized with self propagating high temperaturesynthesis, is studicd with SCF-Xa-DV,a quantum chemistry cal-culating method. The chemical bonding is studied to discuss therelation between structrues and properties. Several classes ofmodels in which there is no vacancy,one vacancy or two vacan-cies have been calculated. From the calculated results of bond or-der, a measure of covalent bond strength, and molecule orbitalcontotr map, it is concluded that when Nb element added in-creases, the vacancies increase correspondinigly, the covalent com-ponent of chemical bonds of the samples decreases while the met-al-bonding component increases, so the hardness and resistanceof the samples decrease. 相似文献
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Al2O3—TiC复合陶瓷的研究进展 总被引:6,自引:0,他引:6
介绍了目前制备Al2O3-TiC复合陶瓷的各种方法及研究进展,对自蔓延高温合成法及无压烧结法作了重点评述。 相似文献
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