IF钢中含Ti夹杂物的衍变规律

Evolution of titaniferous inclusions in IF steelmaking

  • 摘要: 系统研究了Ti-IF钢冶炼过程和铸坯中含Ti夹杂物的组成、分布与微观形貌,揭示了含Ti夹杂物的衍变规律.热力学分析和实验结果表明:在IF钢冶炼过程中无TiN生成,含Ti夹杂物的存在形式是以TiO2为主的钛氧化物结合其他氧化物的复合夹杂:而在连铸凝固过程中,由于钢液温度降低和元素的偏析作用,TiN夹杂以异质形核的方式生成.IF钢铸坯中非金属夹杂物主要是大尺寸Al2O3颗粒和存在中间过渡层的TiN—Al2TiO5-Al2O3复合夹杂物,其形核长大过程是Al、Ti和O先在细小的Al2O3颗粒上反应生成一层Al2TiO5,然后TiN在Al2TiO5表面形核长大.根据连铸过程和铸坯中含钛夹杂物的研究得出,Ti-IF钢铸坯中TiN夹杂难以去除,但是可以使其变性以实现对钢中含钛夹杂物的控制.

     

    Abstract: The composition, distribution and microtopography of titaniferous inclusions in Ti-IF steel during steelmaking and in the casting billets were investigated systematically, and the evolution of the titaniferous inclusions was described subsequently. Both thermodynamic analysis and experimental results indicate that TiN could not precipitate in the steelmaking process, while the titaniferous inclusions exist in the form of a combination of titanium oxides which mainly consists of TiO2 and other oxides. In the solidification process of continuous casting, TiN inclusions precipitate in the heterogeneous nucleation way due to the decrease of liquid steel temperature and the segregation effect. The main non-metallic inclusions in the casting billets are large size Al2O3 particles and TiN-Al2TiO5-Al2O3 triple-layer complex inclusions with the middle layer of Al2TiO5. The nucleation and growth process of TiN-Al2TiO5-Al2O3 complex inclusions is thatAl,Ti andN form the middle layer of Al2TiO5 firstly on the Al2O3 core surface, then TiN nucleates and grows up on the Al2TiO5 surface. Since TiN inclusions in the casting billets are difficultly removed during the steelmaking process, it is feasible to control titaniferous inclusions in the steel by inclusion modification.

     

/

返回文章
返回