较低温度下制备自结合氮化硅铁制品

Preparation of self-bonded products on the base of Fe-Si3N4 at low temperature

  • 摘要: 为了深入了解闪速燃烧法制备的Fe-Si3N4作为高温领域中新型原料的优良特性,用粒度小于74μm的Fe-Si3N4原料制成φ50mm×80mm的试样,成型压力为250kN,经1500℃恒温3h空气条件下烧成后,在试样内部钻取φ36min×50mm圆柱体进行气孔率、体积密度及常温耐压强度等指标检测,并结合XRD,SEM,EDS及DTA-TG等进行了分析.结果表明,用纯Fe-_Si3N4原料,不添加任何烧结助剂,依靠原料自身的Fe3Si以及原料中铁固溶体同氮化硅反应生成的Fe3Si的结合作用,在空气条件下低温烧成制备氮化硅铁耐火材料是可行的.

     

    Abstract: The Fe-Si3N4 powder, synthesized by flashing combustion process, is considered as a new-style raw material for the high temperature condition, but its fine performance has not been recognized. The Fe-Si3N4 powder less than 74μm was made into samples of 50 mm in diameter and 80 mm in height under a molding pressure of 250 kN. The apparent porosity, bulk density and strength resistance of the samples were measured by drilling a cylinder of 36mm in diameter and 50mm in height in the samples, which were sintered at 1 500℃ for 3 h under the air condition. SEM, EDS and X-ray diffraction were employed to study the sintered samples. All the results showed that with Fe-Si3N4 as the raw material and no subsidiary materials, a refractory on the base of Fe-Si3N4 could be prepared at low temperature under the air condition with the combining action of Fe3Si, which originated from the material and was made by the reaction between Fe and Si3N4.

     

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