随着社会经济的发展进步,我国科学技术也在飞速提高,低温炼铁技术也随之得到进步。在低温炼铁技术酸性高炉中,炉渣的流动性是我们关注的重点。在当今社会的低温炼铁技术中,为了尽可能的降低高炉渣带走的热量,我们应该想办法克服酸性高炉渣的流动性。目前,我国很多工作人员就低温炼铁技术酸性高炉渣的流动性进行研究。本篇文章就主要从低温炼铁技术酸性高炉渣的组成成分对其粘度的影响开始分析,深入了解各种化学成分对流动性的作用,从而使我国的低温炼铁技术得到更好的发展。 With the social and economic development and progress, China’s science and technology are also rapidly increasing, low-temperature ironmaking technology also will be improved. In low-temperature iron smelting technology, blast furnace slag flow is our focus. In today’s society, low-temperature ironmaking technology, in order to minimize the heat removed blast furnace slag, we should find ways to overcome the fluidity of acidic blast furnace slag. At present, many workers in our country carry out research on the fluidity of acidic blast furnace slag in low-temperature ironmaking technology. This article mainly analyzes the influence of the composition of acidic blast furnace slag on the viscosity of low temperature ironmaking technology, and deeply understand the effect of various chemical components on the liquidity, so that the low temperature ironmaking technology in our country can be better developed.