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原位氮化法制备TiN纳米粉体(英文) 被引量:5

Synthesis of Nanopowders of Titanium Nitride by in-situ Nitridation of Titanium Oxide
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摘要 用溶胶凝胶法合成的纳米TiO2 粉体作为原料 ,将该粉体在氨气中进行原位氮化制备了TiN纳米粉体。用XRD ,TEM ,化学分析等手段对合成的TiN纳米粉体的物相组成、形貌、成分进行了分析。实验分析表明 :在 10 0 0℃和 110 0℃下分别氮化 5h ,可以制备粒径大约为 4 0nm和 80nm的TiN粉体 ,其TiN的含量分别为 95 .4 0 %和 98.37% ;而在 10 0 0℃条件下氮化时间减少到 2h时 ,TiN的含量仅为 5 8.36 %。氮化温度和氮化时间是合成纳米TiN的重要因素 ,提高合成温度和延长氮化时间均可形成纯度较高的TiN纳米粉体 ,但延长氮化时间更有利于获得粒径小的氮化钛粉体。 The TiN nanopowder was prepared by in-situ nitridation using TiO_2 nanopowder as starting material. The crystalline characteristics, morphology and composition of the TiN nanopowders were investigated by XRD patterns, TEM and chemical analysis. The results indicate that TiN nanopowders are obtained with an average diameter of about 40nm and 80nm by nitridation at 1000℃ and 1100℃ for 5h respectively, and their contents of TiN are 95.40% and 98.37%. When nitridation time reduced to 2h at 1000℃ the content of TiN is only 58.36%. The results reveal that the nitridation temperature and time play important roles on synthesizing the TiN nanopowders. The higher temperature and longer nitridation time are beneficial to form the high purity titanium nitride powders, and prolonging nitridation time is more beneficial to obtain high purity particles with a smaller diameter compared with elevating temperature.
出处 《人工晶体学报》 EI CAS CSCD 北大核心 2004年第4期613-617,共5页 Journal of Synthetic Crystals
关键词 原位氮化法 制备 溶胶凝胶法 纳米TIO2粉体 TiN纳米粉体 氮化钛 氧化钛 titanium nitride nanopowder in-situ nitridation titanium dioxide
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